Method of resin sealing permanent magnets in laminated rotor core

The invention claimed is: 1. A method of resin sealing permanent magnets by fixing the permanent magnets inserted in a plurality of magnet insertion holes formed in a laminated rotor core, the laminated rotor core formed by laminating a plurality of core pieces, comprising: a step of setting the laminated rotor core on a carrier tray; a step of disposing the laminated rotor core placed on the carrier tray between an upper die and a lower die; and a step of resin sealing the permanent magnets in the magnet insertion holes in a state that the laminated rotor core is pressed between the upper die and the lower die to prevent resin material from leaking through gaps between the core pieces, wherein the upper die is free of direct contact with the lower die during the step of resin sealing. 2. The method of resin sealing permanent magnets as defined in claim 1 , wherein the resin sealing of the permanent magnet into the magnet insertion holes is performed using plungers, each plunger vertically moves in resin reservoir pots, by forcing the resin material out of the resin reservoir pots, the resin reservoir pots vertically penetrating the upper die. 3. The method of resin sealing permanent magnets as defined in claim 2 , wherein a bushing is provided in the resin reservoir pots to reduce friction with the plunger. 4. The method of resin sealing permanent magnets as defined in claim 1 , wherein a shaft hole is provided in the laminated rotor core, and the laminated rotor core is set on the carrier tray by inserting a guide member of the carrier tray into the shaft hole. 5. The method of resin sealing permanent magnets as defined in claim 4 , wherein a distal end of the guide member is projecting from an upper end of the laminated rotor core. 6. A method of resin sealing permanent magnets by fixing the permanent magnets by injecting resin material into magnet insertion holes, the permanent magnets being inserted in a plurality of the magnet insertion holes formed in a laminated rotor core, the laminated rotor core being formed by laminating a plurality of core pieces, comprising: injecting the resin material in a state that the laminated rotor core is pressed between an upper die and a lower die to prevent the resin material from leaking through gaps between the core pieces, wherein the upper die is free of direct contact with the lower die during a step of resin sealing.