초록 ▼

A hot runner system includes a having a cavity. Melt is fed from a source of melt into the cavity, and a valve isolates melt in the cavity from melt in the source. A plunger within the cavity is driven forward to inject melt in the cavity into a mold cavity at high pressure without significantly inc

A hot runner system includes a having a cavity. Melt is fed from a source of melt into the cavity, and a valve isolates melt in the cavity from melt in the source. A plunger within the cavity is driven forward to inject melt in the cavity into a mold cavity at high pressure without significantly increasing the pressure of melt in the source. The plunger optionally functions as both the plunger and the valve by opening and closing communication between the cavity and the manifold as it is rotated.

대표청구항 ▼

What is claimed is: 1. An injection apparatus comprising: a housing defining a cavity therein, said cavity in fluid communication with a source of melt, said housing further defining an injection outlet at a first end thereof; a shooting pot having a plunger in sliding communication with said cavit

What is claimed is: 1. An injection apparatus comprising: a housing defining a cavity therein, said cavity in fluid communication with a source of melt, said housing further defining an injection outlet at a first end thereof; a shooting pot having a plunger in sliding communication with said cavity, said plunger operable for movement toward said injection outlet; a selectively closable valve intermediate to said cavity and said source, wherein said valve substantially isolates said cavity from said source; and a valve stem, said valve stem operable for engagement with said injection outlet and wherein said valve stem is actuated independently from said plunger. 2. The injection apparatus according to claim 1, wherein said plunger is operable to increase pressure of melt located in said cavity when said plunger is advanced toward said injection outlet and wherein said valve is operable to substantially isolate said source from said increase in melt pressure when said valve is in a closed position. 3. The injection apparatus according to claim 1, wherein said source further comprises a manifold. 4. The injection apparatus according to claim 1, wherein said cavity comprises at least one wall surface, said plunger being operable for sliding movement relative to said wall surface, and wherein said valve is arranged at said wall surface. 5. The injection apparatus according to claim 4, wherein said valve is selectively opened and closed by movement of said plunger relative to said wall surface of said cavity. 6. The injection apparatus according to claim 5, wherein a first portion of said plunger adjacent said wall surface of said cavity defines a recess therein relative to a remaining portion of said plunger, said recess being in fluid communication with said cavity and said injection outlet, and further comprising: a first position of said plunger wherein said recess is in fluid communication with said source, whereby said valve is open; a second position of said plunger wherein said recess is substantially isolated from said source, whereby said valve is closed; and wherein said plunger is selectively moveable between said first and second position. 7. The injection apparatus according to claim 5, wherein said plunger defines a plunger channel passing therethrough, said plunger channel having an inlet and an outlet, said outlet being in fluid communication with said cavity, and further comprising: a first position of said plunger wherein said plunger channel inlet is in fluid communication with said source, whereby said valve is open; a second position of said plunger wherein said plunger channel inlet is substantially isolated from said source, whereby said valve is closed; and wherein said plunger is selectively moveable between said first and second position. 8. The injection apparatus according to claim 1, further comprising a valve stem, wherein said valve stem is fixed to said plunger, and wherein said valve stem is operable for engagement with said injection outlet. 9. The injection nozzle assembly according to claim 1, further comprising a channel in fluid communication with said source and said cavity, wherein said channel is contained within said housing. 10. The injection apparatus according to claim 9 wherein said valve is intermediate to said source and said channel. 11. A hot runner system comprising: a housing defining a cavity therein, said housing further defining an injection outlet at a first end thereof; a source of melt in fluid communication with said cavity, said source comprising a manifold; a shooting pot having a plunger in sliding communication with said cavity, said plunger operable for movement toward said injection outlet; and a selectively closable valve intermediate to said cavity and said manifold, wherein said valve substantially isolates said cavity from said manifold; wherein said plunger is operable to increase pressure of melt located in said cavity when said plunger is advanced toward said injection outlet, and wherein said valve is operable to substantially isolate said source from said increase in melt pressure when said valve is in a closed position; and a valve stem, said valve stem operable for engagement with said injection outlet and wherein said valve stem is actuated independently from said plunger. 12. The hot runner system of claim 11 wherein said manifold is heated and further comprises flexible conduits for distribution of melt. 13. The hot runner system according to claim 11 wherein said cavity comprises at least one wall surface, said plunger being operable for sliding movement relative to said wall surface, and wherein said valve is arranged at said wall surface. 14. The hot runner system according to claim 13 wherein said valve is selectively opened and closed by movement of said plunger relative to said wall surface of said cavity. 15. The hot runner system according to claim 14 wherein a first portion of said plunger adjacent said wall surface of said cavity defines a recess therein relative to a remaining portion of said plunger, said recess being in fluid communication with said cavity and said injection outlet, and further comprising: a first position of said plunger wherein said recess is in fluid communication with said source, whereby said valve is open; a second position of said plunger wherein said recess is substantially isolated from said source, whereby said valve is closed; and wherein said plunger is selectively moveable between said first and second position. 16. The hot runner system according to claim 14, wherein said plunger defines a plunger channel passing therethrough, said plunger channel having an inlet and an outlet, said outlet being in fluid communication with said cavity, and further comprising: a first position of said plunger wherein said plunger channel inlet is in fluid communication with said source, whereby said valve is open; a second position of said plunger wherein said plunger channel inlet is substantially isolated from said source, whereby said valve is closed; and wherein said plunger is selectively moveable between said first and second position. 17. The hot runner system according to claim 16 further comprising a valve stem, wherein said valve stem is fixed to said plunger, and wherein said valve stem is operable for engagement with said injection outlet. 18. The hot runner system according to claim 11 further comprising a channel in fluid communication with said manifold and said cavity, wherein said channel is contained within said housing. 19. The hot runner system according to claim 18 wherein said valve is intermediate to said manifold and said channel.