Pump, refrigeration cycle device, and method of producing pump

The invention claimed is: 1. A pump comprising: a molded stator that includes a pilot hole component, the pilot hole component having a plurality of leg portions having pilot holes; and a pump unit including a plurality of screw holes adjacent an outer circumferential portion of the pump unit, the molded stator including a pump unit installation surface on which the pump unit is installed, the plurality of leg portions including first leg portions each having a blind pilot hole extending through the pump unit installation surface and second leg portions each having a through pilot hole extending through the pump unit installation surface and extending through an end plane on a side of the pilot hole component opposite the pump installation surface, wherein the pump unit and the molded stator are attached to each other by screwing self-tapping screws into the pilot holes of the pump unit installation surface of the molded stator and through the screw holes of the pump unit so as to form the pump, and the first leg portions and the second leg portions are connected to one another by a thin connecting portion. 2. The pump of claim 1 , wherein a plurality of projections are provided on an outer circumferential portion of the leg portions of the pilot hole component and configured to prevent the pilot hole component from being rotated. 3. The pump of claim 1 , wherein the leg portions of the pilot hole component each have a tapered shape, the thickness of which increases as a distance from the pump unit installation surface increases. 4. The pump of claim 1 , wherein the connecting portion of the pilot hole component has a plurality of hooks for attaching the pilot hole component to a stator portion of the molded stator. 5. The pump of claim 4 , wherein the stator portion includes a stator core having a plurality of teeth around which coils are wound, the teeth being provided with insulating portions, a board is attached to the stator portion, an electrical component is mounted on the board, and a lead cable guiding component, through which a lead cable is drawn out, is attached to the board, and the stator core has grooves at an outer circumferential portion thereof, and the hooks of the pilot hole component are hooked in the grooves. 6. The pump of claim 1 , wherein at least one of the leg portions of the pilot hole component has a projection that is disposed on the end plane opposite to the pump unit installation surface side, and used to position the pilot hole component in the axial direction. 7. The pump of claim 1 , wherein an outer diameter of the leg portion on an end of the pump unit installation surface side is set to be larger than an inside diameter of an opening provided in the pump unit installation surface. 8. The pump of claim 1 , wherein the connecting portion of the pilot hole component has a cylindrical portion that projects from the connecting portion between the leg portions. 9. The pump of claim 8 , wherein the cylindrical portion has a gate through which resin for forming the pilot hole component is injected. 10. The pump of claim 1 , wherein the pilot holes of the leg portions have a straight shape. 11. A refrigeration cycle device comprising: the pump of claim 1 disposed in a water circuit connected to a refrigerant circuit through a refrigerant-water heat exchanger. 12. The pump of claim 1 , wherein the plurality of leg portions include a third leg portion having a pilot hole extending through the pump unit installation surface and a pilot hole extending through the end plane opposite to the pump installation surface. 13. A method of producing a pump, the method comprising: a step of producing a stator by providing a tooth of a stator core with an insulating portion and winding a coil around the tooth provided with the insulating portion; a step of producing a rotor portion by integrating a resin magnet and a sleeve bearing provided inside the resin magnet with each other by resin and producing an impeller, a step of attaching the board to the stator, producing a rotor by attaching the impeller to the rotor portion, and producing a cup-shaped bulkhead component, a shaft, and a thrust bearing; a step of producing a pilot hole component having a plurality of leg portions, wherein the plurality of leg portions include first leg portions each having a blind pilot hole extending through a pump unit installation surface of the molded stator and second leg portions each having a through pilot hole extending through the pump unit installation surface and extending through an end plane on a side of the pilot hole component opposite the pump installation surface, the first leg portions and the second leg portions are connected to one another; a step of producing a molded stator by integrating the stator and the pilot hole component with each other by a resin for molding, assembling a pump unit by securing a cup-shaped bulkhead portion, wherein the rotor is attached in the cup-shaped bulkhead portion such that a shaft, engaged with the rotor, is not rotatable, the rotor portion and the impeller are provided to the rotor, and producing the pump unit having a plurality of screw holes near an outer circumferential portion thereof by attaching the cup-shaped bulkhead component; and a step of attaching the pump unit and the molded stator to each other by fitting the pump unit to the pump installation surface of the molded stator via the pilot holes extending through the first leg portions and screwing self-tapping screws into the screw holes of the pump unit and the pilot holes of the molded stator. 14. The method of claim 13 , wherein, when the resin for molding is molded to produce the molded stator, an end plane of the pilot hole component on a side through which the pilot holes of the first leg portions extend and a projection of the pilot hole component provided on the other end plane are clamped by a mold for resin molding and position the pilot hole component in an axial direction.