Claims
- 1. A molding apparatus for injection molding plastic articles comprising:an outer mold comprised of a plurality of molding blocks which are separable along a parting interface and which, when positioned together, define an enclosed article mold cavity therewithin, a hollow mold core having opposing ends, at least one of which is an open and, and defining a longitudinal axis extending between said opposing ends, and said mold core has an outer surface and defines a core runner cavity therewithin that has a uniform longitudinal cross section throughout relative to said longitudinal axis, and said core runner cavity extends through said open mold core end, and at least one core ejection gate is defined within said core leading from said core runner cavity to said outer surface of said core, and a removable core end closure that is positionable at said open end of said core and which defines a core runner extension cavity therewithin that is in communication with said core runner cavity and is aligned on said longitudinal axis of said core, and said mold core is clamped in a fixed, predetermined position relative to said article mold cavity by said molding blocks of said outer mold, whereby a path of injected molten plastic flow is established into said core runner cavity, through said ejection core gates, and into said article mold cavity from said outside of said mold core when said core is within said outer mold and said molding blocks are positioned together.
- 2. A molding apparatus according to claim 1 wherein said hollow mold core also defines a core inlet gate leading from said outer surface of said core mold to said core runner cavity, and said molding blocks of said outer mold cavity also form a mold gating passageway leading from the exterior of said outer mold to a mold block gating port, and said mold block gating port is in direct communication with said core inlet gate of said mold core, and said outer mold blocks contact said outer surface of said mold core and surround said mold block gating port at said outer surface of said mold core, whereby all flow from said mold block gating port is directed exclusively into said core inlet gate of said mold core.
- 3. A molding apparatus according to claim 2 in which said mold core has a single open end and a single blind end, and said removable core end closure is formed as a cap for said single open end of said mold core.
- 4. A molding apparatus according to claim 3 in which said single blind end of said mold core is located within said mold cavity and said single open end of said mold core projects through openings in said mold blocks at said parting interface when said mold blocks are positioned together.
- 5. A molding apparatus according to claim 1 wherein said core runner extension cavity of said removable core end closure has a cross-sectional area at least as great as that of said core runner cavity.
- 6. A molding apparatus according to claim 1 wherein said core runner extension cavity of said removable core end closure has the same cross section at said core runner cavity.
- 7. A molding apparatus according to claim 1 wherein said outer surface of said mold core is formed with a raised protuberance at the location of each core ejection gate.
- 8. A molding apparatus for injection molding hollow plastic articles comprising:a plurality of outer molds each comprised of a plurality of molding blocks which are separable from each other along a parting interface and which, when positioned together, define an enclosed article mold cavity, and said mold cavities of said plurality of outer molds are each of a different shape and a different volume, a hollow mold core having opposing ends, at least one of which is an open end, and defining a longitudinal axis extending between said opposing ends, and said mold core has an outer surface and defines a core runner cavity therewithin that has a uniform cross section throughout along said longitudinal axis, and said core runner cavity extends through said open mold core end, and a plurality of core ejection gates are defined within said core leading from said core runner cavity to said outer surface of said core, and a removable core end closure that is positionable at said open end of said core and which defines a core runner extension cavity therewithin that is in communication with and longitudinally aligned with said core runner cavity, and when said core is positioned within at least one of said outer molds, the molding blocks thereof block flow from at least one of said plurality of core ejection gates.
- 9. A molding apparatus according to claim 8 wherein said outer surface of said mold core has raised protuberances at each of said core ejection gates that project outwardly into said mold cavities of said outer molds when said mold blocks are positioned together with said mold core located therebetween.
- 10. A molding apparatus according to claim 8 wherein said outer molds include at least a first stage outer mold and a second stage outer mold, and said mold blocks of said first stage outer mold have interior walls that define a first stage mold cavity and include port blocking projections that extend into said first stage mold cavity to block flow from at least one of said plurality of core ejection gates as aforesaid, and said mold blocks of said second stage outer mold have interior walls that define a second stage mold cavity which is larger in volume than said first stage mold cavity and which totally encompasses said first stage mold cavity and said interior walls of said mold blocks of said second stage outer mold are spaced from at least one of said core ejection gates that is blocked by said blocking projections of said first stage mold cavity.
Parent Case Info
The present application is a Division of U.S. application Ser. No. 09/630,081 filed Aug. 1, 2000, now U.S. Pat. No. 6,503,430.
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