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An injection molding apparatus includes an inlet component, a plurality of nozzles, and a plurality of hoses, each of which is not heated. The hoses are connected between outlets of the inlet component and respective molding material inlets of the nozzles for conveying molding material from the inle

An injection molding apparatus includes an inlet component, a plurality of nozzles, and a plurality of hoses, each of which is not heated. The hoses are connected between outlets of the inlet component and respective molding material inlets of the nozzles for conveying molding material from the inlet component to the nozzles. Hoses may also be connected between a rail plate and the nozzles for delivering cooling fluid or actuation fluid for an actuator to and from the nozzles. The nozzles may be fastened to a mold plate of the injection molding apparatus, such as by a threaded bushing. A heated insert may at least partially define the mold cavity to heat molding material in the mold cavity.

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1. An injection molding apparatus comprising: an inlet component having an inlet and a plurality of outlets, the inlet for receiving molding material from a source;a plurality of nozzles, each nozzle having a molding material inlet and a nozzle channel for delivering molding material through a mold

1. An injection molding apparatus comprising: an inlet component having an inlet and a plurality of outlets, the inlet for receiving molding material from a source;a plurality of nozzles, each nozzle having a molding material inlet and a nozzle channel for delivering molding material through a mold gate and into a mold cavity, each nozzle having an actuated valve pin for opening and closing the mold gate; anda manifold connected between the outlets of the inlet component and the inlets of the nozzles for conveying molding material from the inlet component to the nozzles,wherein at least one of the nozzles comprises a nozzle core that defines the nozzle channel for conveying molding material, a cooling channel for flow of coolant to cool the molding material in the nozzle channel, and a nozzle housing in which the nozzle core is disposed, the nozzle housing including coolant ports connected to the cooling channel of the nozzle core and a molding material inlet connected to the nozzle channel. 2. The injection molding apparatus of claim 1, further comprising: a mold plate adjacent the mold cavity, the mold plate including a bore; andan insert with a heater coupled thereto, the insert being disposed within the bore and partially defining the mold cavity. 3. The injection molding apparatus of claim 1, wherein at least one of the nozzles is removably fastened to a mold plate, the mold plate defining at least a portion of the mold cavity. 4. The injection molding apparatus of claim 3, wherein the removably fastened nozzle has a threaded bushing that is threaded into the mold plate. 5. An injection molding apparatus comprising: an inlet component having an inlet and a plurality of outlets, the inlet for receiving molding material from a source;a plurality of nozzles, each nozzle having an inlet and a nozzle channel for delivering molding material through a mold gate and into a mold cavity, each nozzle having an actuated valve pin for opening and closing the mold gate;a plurality of hoses, each hose connected between an outlet of the inlet component and an inlet of one of the nozzles for conveying molding material from the inlet component to the connected nozzle; andat least one rail plate sandwiched between a back plate and the mold plate, the rail plate having a channel for conveying coolant or actuator fluid, and at least one conduit connected between the rail plate and one of the nozzles for convening coolant or actuating fluid to the nozzle;wherein the inlet component, the nozzles, and the hoses do not have a heater in contact therewith. 6. The injection molding apparatus of claim 5, wherein at least one of the hoses has sufficient flexibility to allow a human operator to manually adjust the path followed by the hose. 7. The injection molding apparatus of claim 5, wherein at least one of the nozzles is removably fastened to a mold plate, the mold plate defining at least a portion of the mold cavity. 8. The injection molding apparatus of claim 7, wherein the removably fastened nozzle has a threaded bushing that is threaded into the mold plate. 9. The injection molding apparatus of claim 5, further comprising: a mold plate adjacent the mold cavity, the mold plate including a bore; andan insert with a heater coupled thereto, the insert being disposed within the bore and partially defining the mold cavity. 10. An injection molding apparatus comprising: an inlet component having an inlet and a plurality of outlets, the inlet for receiving molding material from a source;a plurality of nozzles, each nozzle having an inlet and a nozzle channel for delivering molding material through a mold gate and into a mold cavity, each nozzle having an actuated valve pin for opening and closing the mold gate; anda manifold connected between the outlets of the inlet component and the inlets of the nozzles for conveying molding material from the inlet component to the nozzles;wherein at least one of the nozzles comprises a nozzle core that defines the nozzle channel for conveying molding material and a cooling channel for flow of coolant to cool the molding material in the nozzle channel, the nozzle core having two concentric sleeves and the cooling channel being disposed between the sleeves. 11. The injection molding apparatus of claim 10, wherein at least one of the nozzles is removably fastened to the mold plate by a bushing. 12. The injection molding apparatus of claim 11, wherein the removably fastened nozzle has a nozzle core that has a lip against which the bushing abuts. 13. The injection molding apparatus of claim 12, wherein the removably fastened nozzle is thread connected to the mold plate. 14. The injection molding apparatus of claim 10, wherein the at least one nozzle further comprises a nozzle housing in which the nozzle core is disposed and wherein the nozzle housing has coolant ports connected to the cooling channel of the nozzle core and a molding material inlet connected to the nozzle channel. 15. The injection molding apparatus of claim 11, wherein at least one nozzle comprises an actuator connected to the valve pin for actuating the valve pin between opened and closed positions. 16. The injection molding apparatus of claim 15, wherein the at least one nozzle further comprises an actuator housing in which the actuator is disposed and wherein the actuator housing has fluid ports and the actuator is driven by pressurized fluid applied to the fluid ports. 17. An injection molding apparatus comprising: an inlet component having an inlet and a plurality of outlets, the inlet for receiving molding material from a source;a plurality of nozzles, each nozzle having an inlet and a nozzle channel for delivering molding material through a mold gate and into a mold cavity, each nozzle having an actuated valve pin for opening and closing the mold gate;a manifold connected between the outlets of the inlet component and the inlets of the nozzles for conveying molding material from the inlet component to the nozzles; andat least one rail plate sandwiched between a back plate and the mold plate, the rail plate having a channel for conveying coolant or actuator fluid, and at least one conduit connected between the rail plate and one of the nozzles for conveying coolant or actuating fluid to the nozzle. 18. The injection molding apparatus of claim 17, wherein at least one of the nozzles is removably fastened to the mold plate by a bushing. 19. The injection molding apparatus of claim 18, wherein the removably fastened nozzle has a nozzle core that has a lip against which the bushing abuts. 20. The injection molding apparatus of claim 19, wherein the removably fastened nozzle is thread connected to the mold plate. 21. The injection molding apparatus of claim 18, wherein the bushing is thread connected to the mold plate. 22. The injection molding apparatus of claim 17, wherein at least one nozzle comprises an actuator connected to the valve pin for actuating the valve pin between opened and closed positions. 23. The injection molding apparatus of claim 22, wherein the at least one nozzle further comprises an actuator housing in which the actuator is disposed and wherein the actuator housing has fluid ports and the actuator is driven by pressurized fluid applied to the fluid ports.