Hot runner nozzle and mold for forming multi-layer molded article using the same

What is claimed is: 1. A hot runner nozzle to be attached to a mold for forming a molded article having a layered structure, the hot runner nozzle comprising: a nozzle gate; a shut pin hole; a shut pin moving back and forth through the shut pin hole; and a plurality of resin discharge ports arranged in a length direction of the shut pin hole so that the plurality of resin discharge ports face the shut pin hole, molten resins from the resin discharge ports being joined in the shut pin hole, and the resin discharge ports being able to be opened and closed by the shut pin, wherein the nozzle gate has a diameter smaller than a diameter of the shut pin hole, the shut pin having a tip which includes a frustoconical end and a projection provided on the frustoconical end spaced from the edge of the frustoconical end so as to push out the molten resin in the nozzle gate toward a mold cavity in the mold when the shut pin moves forward to close all of the resin discharge ports, the shut pin further include a discharge port opening and closing mechanism part for opening and closing the resin discharge ports and a nozzle gate opening and closing mechanism part configured of the projection for pushing out the molten resin in the nozzle gate, and the discharge port opening and closing mechanism part and the nozzle gate opening and closing mechanism part have respective different diameters. 2. The hot runner nozzle according to claim 1 , wherein the resin discharge ports corresponding to which a circumferential surface of the shut pin is positioned are closed by the shut pin, and when the shut pin moves backward so that the resin discharge port is positioned before the tip of the shut pin, the resin discharge port positioned before the tip of the shut pin is opened to be capable of sending out the molten resin. 3. The hot runner nozzle according to claim 1 , comprising nozzle resin passages to reach the plurality of respective resin discharge ports, the nozzle resin passages each being arranged in a concentric annular shape in a cross sectional plane in a nozzle diameter direction, and wherein each of the plurality of resin discharge ports is opened in a circumferential direction of the shut pin hole. 4. The hot runner nozzle according to claim 2 , comprising nozzle resin pas sages to reach the plurality of respective resin discharge ports, the nozzle resin passages each being arranged in a concentric annular shape in a cross sectional plane in a nozzle diameter direction, and wherein each of the plurality of resin discharge ports is opened in a circumferential direction of the shut pin hole. 5. A mold comprising the hot runner nozzle according to any one of claims 1 to 4 , for forming a molded article having a layered structure with molten resins fed from the hot runner nozzle, wherein the shut pin is switchable among three shut pin opening and closing states including: a state in which the shut pin is positioned corresponding to the resin discharge ports other than a foremost resin discharge port to open only the foremost resin discharge port; a state in which the shut pin is positioned behind a rearmost resin discharge port to open all of the resin discharge ports; and a totally-closed state in which the shut pin closes all of the resin discharge ports. 6. A mold comprising the hot runner nozzle according to any one of claims 1 to 4 , for forming a molded article having a layered structure with molten resins fed from the hot runner nozzle, wherein the shut pin is switchable among four shut pin opening and closing states including: a state in which the shut pin is positioned corresponding to the resin discharge ports other than a foremost resin discharge port to open only the foremost resin discharge port; a state in which the shut pin is positioned corresponding to a rearmost resin discharge port to close only the rearmost resin discharge port and open the resin discharge ports other than the rearmost resin discharge port; a state in which the shut pin is positioned behind the rearmost resin discharge port to open all of the resin discharge ports; and a totally-closed state in which the shut pin closes all of the resin discharge ports. 7. A method for feeding molten resins to a mold, the method comprising: attaching, to the mold for forming a multi-layer molded article according to claim 5 , an injection machine for feeding a molten resin to a runner for a molten resin for a surface layer of the molded article in the mold and an injection machine for feeding a molten resin to a runner for a molten resin for an intermediate layer of the molded article in the mold; and switching among the shut pin opening and closing states upon feeding the molten resins to the mold on the basis of a screw reached position or an injection time in the injection machine for feeding the molten resin for a surface layer of the molded article and the injection machine for feeding the molten resin for an intermediate layer of the molded article. 8. A method for feeding molten resins to a mold, the method comprising: attaching, to the mold for forming a multi-layer molded article according to claim 6 , an injection machine for feeding a molten resin to a runner for a molten resin for a surface layer of the molded article in the mold and an injection machine for feeding a molten resin to a runner for a molten resin for an intermediate layer of the molded article in the mold; and switching among the shut pin opening and closing states upon feeding the molten resins to the mold on the basis of a screw reached position or an injection time in the injection machine for feeding the molten resin for a surface layer of the molded article and the injection machine for feeding the molten resin for an intermediate layer of the molded article. 9. A method for feeding molten resins to a mold, the method comprising: upon feeding molten resins to a mold, provided with the hot runner nozzle according to any one of claims 1 to 4 , for forming a molded article having a layered structure with the molten resins fed from the hot runner nozzle, using the foremost resin discharge port and the rearmost resin discharge port in the hot runner nozzle as resin discharge ports into which the same molten resin is separated and fed and using the middle resin discharge port as a resin discharge port into which a molten resin of a kind different from the molten resin fed into the foremost resin discharge port and the rearmost resin discharge port is fed; setting a resin flow rate of the same molten resin to be separated into the foremost resin discharge port to be different from a resin flow rate of the same molten resin to be separated into the rearmost resin discharge port by adjusting runner bores after the molten resin is separated or throttles; and feeding the same molten resin to the mold cavity with the resin flow rate from the foremost resin discharge port into the mold cavity in the mold and the resin flow rate from the rearmost resin discharge port into the mold cavity being different from each other. 10. A method for feeding molten resins to a mold, the method comprising: upon feeding molten resins to a mold, provided with the hot runner nozzle according to any one of claims 1 to 4 , for forming a molded article having a layered structure with the molten resins fed from the hot runner nozzle, using the resin discharge ports of the hot runner nozzle as resin discharge ports into which the molten resins are fed from independent injection machines; and controlling resin flow rates of the molten resins to be fed into the resin discharge ports respectively by the injection machines corresponding to the resin discharge ports.