Pump, refrigeration cycle apparatus, and method for manufacturing pump

The invention claimed is: 1. A pump comprising: a molded stator including a board on which a magnetic-pole-position detection element is mounted; and a rotor including a rotor portion that is rotatably accommodated in a cup-shaped partition wall component, the rotor portion opposing the magnetic-pole-position detection element at one end and having an impeller attachment portion for attaching an impeller at another end, wherein, the rotor portion includes a magnet including an impeller-attachment-portion-side end portion and a magnetic-pole-position-detection-element-side end portion, a first magnet holder having a ring shape with an opening and a recess, the impeller-attachment-portion-side end portion of the magnet being held in the recess of the first magnet holder, a second magnet holder having a ring shape with an opening, a first surface and a second surface, the first surface being provided on a first side of the second magnet holder and facing the magnet and having a recess, the second surface being provided on another side of the second magnetic holder opposite the first side and facing away from the magnet, and the magnetic-pole-position-detection-element-side end portion of the magnet being inserted into the recess of the first surface of the second magnet holder, a back yoke disposed inside the magnet, a sleeve bearing disposed inside the back yoke, and a position detection magnet provided on the second surface of the second magnet holder at a location permitting detection of a magnetic flux of the position detection magnet by the magnetic-pole-position detection element, and wherein the magnet, the first magnet holder, the second magnet holder, the back yoke, the sleeve bearing, and the position detection magnet are assembled integrally together with a thermoplastic resin, and the impeller attachment portion is formed of the thermoplastic resin. 2. The pump of claim 1 , wherein the second surface of the second magnet holder includes a plurality of projections extending toward the position detection magnet, and wherein the position detection magnet has a ring shape with an opening, the position detection magnet including a step formed at an inner periphery of the opening of the position detection magnet, the step being pressed against the projections in a state in which the position detection magnet is attached to the second magnet holder, and a plurality of ribs formed on the step, the ribs suppressing rotation of the position detection magnet in the state in which the position detection magnet is attached to the second magnet holder. 3. The pump of claim 2 , wherein the position detection magnet includes another step formed at the inner periphery of the opening of the position detection magnet, and the second magnet holder includes another plurality of ribs provided on the another step, and each of a magnetic-pole-position-detection-element-side end surface of the rotor portion and a magnet-side end surface at a side opposite to the magnetic-pole-position-detection-element-side end surface including one of the step and plurality of ribs and the another step and the another plurality of ribs. 4. The pump of claim 1 , wherein the position detection magnet opposes the magnetic-pole-position detection element. 5. The pump of claim 1 , wherein the position detection magnet is formed of a resin magnet. 6. The pump of claim 1 , wherein the magnet has a cylindrical shape and includes a plurality of sintered magnets extending from the first magnet holder toward the second magnet holder and being held by the first magnet holder and the second magnet holder with the sintered magnets being substantially parallel to each other. 7. The pump of claim 1 , wherein the second magnet holder has a plurality of cuts that are arranged radially in a magnetic-pole-position-detection-element-side end surface of the rotor portion, the cuts allowing the magnet to be positioned in a rotational direction and arranged coaxially with the sleeve bearing. 8. The pump of claim 1 , wherein the first magnet holder includes a plurality of projections having a substantially angular shape and arranged in a hollow portion of the magnet with substantially constant intervals therebetween in a circumferential direction, the projections extending in an axial direction toward an impeller-side end surface, which is an end surface in a side on which the impeller is provided. 9. A refrigeration cycle apparatus in which a refrigerant circuit and a water circuit are connected to each other with a refrigerant-water heat exchanger, wherein the pump of claim 1 is mounted in the water circuit. 10. The pump of claim 1 , wherein the rotor portion includes a plurality of the magnets, wherein the first magnet holder includes a plurality of the recesses, and each of the impeller-attachment-portion-side end portions of the magnets is inserted to one of the recesses of the first magnet holder, wherein the second magnet holder includes a plurality of the recesses, and each of the magnetic-pole-position-detection-element-side end portions of the magnets is inserted to one of the recesses of the second magnet holder. 11. A method for manufacturing a pump, the method comprising: assembling a magnet assembly by steps of attaching a back yoke to a first magnet holder including a first recess and a second magnet holder including a second recess and a projection configured as a base to receive a position detection magnet, and inserting one end of a sintered magnet into the recess of the first magnet holder and another end of the sintered magnet into the recess of the second magnet holder; winding a wire around a stator core; assembling a stator by attaching a board to the stator core around which the wire has been wound, and forming a rotor portion by molding the magnet assembly, the position detection magnet, and a sleeve bearing integrally together; soldering a terminal of the stator to the board and forming a rotor by assembling an impeller and the rotor portion integrally together; attaching a cup-shaped partition wall component to the rotor; forming a stator assembly by attaching a pilot-hole component to the stator, forming a molded stator by molding the stator and the pilot-hole component integrally together, and assembling a pump unit by fixing a casing to the cup-shaped partition wall component attached to the rotor; and attaching the pump unit to the molded stator and fixing the pump unit to the molded stator with a tapping screw. 12. The method for manufacturing the pump of claim 11 , wherein the first magnet holder has another recess having a substantially angular shape, the another recess being formed in an impeller-side end surface of the first magnet holder and arranged radially, wherein the another recess and the projection configured as a base to receive the position detection magnet are provided in the thermoplastic resin when the magnet assembly, the position detection magnet, and the sleeve bearing are molded integrally together with a thermoplastic resin. 13. The method for manufacturing the pump of claim 11 , wherein the second magnet holder has a plurality of cuts that are arranged radially in a magnetic-pole-position-detection-element-side end surface of the rotor portion, the cuts allowing the sintered magnet to be positioned in a rotational direction and arranged coaxially with the sleeve bearing. 14. The method for manufacturing the pump of claim 11 , wherein the first magnet holder includes a plurality of projections having a substantially angular shape and arranged in a hollow portion of the sintered magnet