Claims
- 1. A multi-coinjection nozzle injection molding apparatus for an injection molding machine for injection molding a multi-layer, multi-material plastic article, which comprises,
- a plurality of injection molds which define injection cavities mounted on a member,
- a plurality of juxtaposed co-injection nozzles each having a central channel, and polymer flow stream passageways in communication with the central channel, said central channel having an open end, a gate at the open end, and a polymer material combining area in communication with the passageways and the gate,
- means for abutting the juxtaposed nozzles and injection molds,
- a source of polymeric material located upstream of the nozzles for each material which is to form a layer of the article,
- means located upstream of the nozzles for displacing each polymer material which is to form a layer of the article from its source to a co-injection nozzle passageway, and for pressurizing each said material in its passageway,
- a separate flow channel for each polymer material which is to form a layer of the article, each channel being in communication with one of the displacement and pressurizing means,
- flow channel splitter means in communication with each said flow channel downstream of its associated displacement and pressurizing means, for splitting each said flow channel into a plurality of separate branched flow channels, there being a separate branched flow channel for each material which is to form a layer of the article,
- means in communication with a branched flow channel for each material which is to form a layer of the article and in communication with a co-injection nozzle, for separately feeding each separate polymer material to it associated co-injection nozzle,
- a plurality of valve means cooperatively associated with the co-injection nozzles, said plurality including separate valve means for each co-injection nozzle and operative in the combining area of the nozzle's central channel with respect to each polymeric material fed to the nozzle and which is to form a layer of the article,
- drive means for driving each of said separate valve means substantially simultaneously and substantially identically within the central channel of each of said co-injection nozzles to provide in each co-injection nozzle substantially simultaneous and identical control over the initiation, regulation, and termination of the flows of the polymer materials through each of the co-injection nozzles, and
- control means connected to the simultaneous drive means for moving the valve means in a desired mode which provides said substantially identical simultaneous movements of said separate valve means in said respective co-injection nozzles.
- 2. The multi-coinjection nozzle injection molding apparatus of claim 1 wherein the valve means is comprised of an elongated sleeve having an open end and an elongated side wall adapted for a close tolerance slip fit within the nozzle central channel, said side wall having a port therein and an elongated central passageway defined by a wall and in communication with the port and the open end, and an elongated pin mounted within and axially moveable within the central channel passageway of the sleeve and having a side wall outer surface adapted to be in a close tolerance slip fit within the sleeve central channel passageway wall and sufficient to prevent any significant accumulation or passage of melt polymer material between the pin side wall outer surface and the sleeve central passageway wall, the elongated sleeve outer surface being adapted to be in a close tolerance slip fit within the central channel of the nozzle to prevent any significant accumulation or passage of polymeric material between the nozzle central channel surface and the side wall outer surface of the sleeve.
- 3. The multi-coinjection nozzle injection molding apparatus of claim 1 wherein the simultaneous drive means is adapted to permit the separate valve means to sequentially and simultaneously allow the flow of the plurality of materials in various combinations into the co-injection nozzle central channel, said valve means and simultaneous drive means being adapted to effect said allowance of flow of layers substantially simultaneously in a plurality of the co-injection nozzles.
- 4. The multi-coinjection nozzle injection molding apparatus of claim 1 wherein the combining area is close to the gate, the combining area has an axial length of from about 100 mils to about 900 mils and the valve means is operative in each combining area.
- 5. The multi-coinjection nozzle injection molding apparatus of claim 1 wherein the valve means and drive means are adapted to move the valve, means through the combining area at the end of the injection cycle to clear the polymer materials from the combining area and thereafter block the materials from flowing from the passageways into the central channel.
- 6. The multi-coinjection nozzle injection molding apparatus of claim 2 wherein the valve means and drive means are adapted to move the valve means through the combining area at the end of the injection cycle to clear the polymer materials from the combining area and thereafter block the materials from flowing from the passageways into the central channel.
- 7. The multi-coinjection nozzle injection molding apparatus of claim 3 wherein the valve means and drive means are adapted to move the valve means through the combining area at the end of the injection cycle to clear the polymer materials from the combining area and thereafter block the materials from flowing from the passageways into the central channel.
- 8. The multi-coinjection nozzle injection molding apparatus of claim 4 wherein the-valve means and drive means are adapted to move the valve means through the combining area at the end of the injection cycle to clear the polymer materials from the combining area and thereafter block the materials from flowing from the passageways into the central channel.
- 9. The multi-coinjection nozzle injection molding apparatus of claim 1 wherein the flow channels, branched flow channels, feeding means and co-injection nozzles are adapted to provide substantially the same polymer stream flow path in terms of distance, diameter, restrictions, and pattern of flow for each corresponding material in its corresponding flow channels, branched channels and co-injection nozzle passageways for forming a corresponding layer of each multi-layer article injected from each nozzle.
- 10. The multi-coinjection nozzle injection molding apparatus of claim 2 wherein the flow channels, branched flow channels, feeding means and co-injection nozzles are adapted to provide substantially the same polymer stream flow path in terms of distance, diameter, restrictions, and pattern of flow for each corresponding material in its corresponding flow channels, branched channels and co-injection nozzle passageways for forming a corresponding layer of each multi-layer article injected from each nozzle.
- 11. The multi-coinjection nozzle injection molding apparatus of claim 3 wherein the flow channels, branched flow channels, feeding means and co-injection nozzles are adapted to provide substantially the same polymer stream flow path in terms of distance, diameter, restrictions, and pattern of flow for each corresponding material in its corresponding flow channels, branched channels and co-injection nozzle passageways for forming a corresponding layer of each multi-layer article injected from each nozzle.
- 12. The multi-coinjection nozzle injection molding apparatus of claim 4 wherein the flow channels, branched flow channels, feeding means and co-injection nozzles are adapted to provide substantially the same polymer stream flow path in terms of distance, diameter, restrictions, and pattern of flow for each corresponding material in its corresponding flow channels, branched channels and co-injection nozzle passageways for forming a corresponding layer of each multi-layer article injected from each nozzle.
- 13. The multi-coinjection nozzle injection molding apparatus of claim 1 wherein the article is a parison for forming a blow molded container.
- 14. The multi-coinjection nozzle injection molding apparatus of claim 2 wherein the article is a parison for forming a blow molded container.
- 15. The multi-coinjection nozzle injection molding apparatus of claim 4 wherein the article is a parison for forming a blow molded container.
- 16. The multi-coinjection nozzle injection molding apparatus of claim 9 wherein the article is a parison for forming a blow molded container.
- 17. The multi-coinjection nozzle injection molding apparatus of claim 5 wherein the article is a parison for forming a blow molded container.
- 18. The multi-coinjection nozzle injection molding apparatus of claim 1 wherein the article is a container.
- 19. The multi-coinjection nozzle injection molding apparatus of claim 2 wherein the article is a container.
- 20. The multi-coinjection nozzle injection molding apparatus of claim 4 wherein the article is a container.
- 21. The multi-coinjection nozzle injection molding apparatus of claim 9 wherein the article is a container.
- 22. The multi-coinjection nozzle injection molding apparatus of claim 5 wherein the article is a container.
- 23. The multi-coinjection nozzle injection molding apparatus of claim 18 wherein the container has a total wall thickness of from about 0.010 inch to about 0.035 inch or less.
- 24. The multi-coinjection nozzle injection molding apparatus of claim 23 wherein the multi-layer container has an internal layer which is an oxygen barrier material whose thickness is from about 0.0004 to about 0.008 inch.
- 25. The apparatus of claim 1 wherein each passageway of each co-injection nozzle has an orifice which communicates with the central channel, and wherein one or more of the passageways is tapered to converge toward its orifice.
- 26. The apparatus of claim 2 wherein each passageway of each co-injection nozzle has an orifice which communicates with the central channel, and wherein one or more of the passageways is tapered to converge toward its orifice.
- 27. The apparatus of claim 5 wherein each passageway of each co-injection nozzle has an orifice which communicates with the central channel, and wherein one or more of the passageways is tapered to converge toward its orifice.
- 28. Apparatus for injection molding a plurality of multi-layer, multi-material plastic containers having a side with a marginal end portion and whose side wall total the marginal end portion is from about 0.010 inch to about 0.035 inch, which comprises,
- a plurality of injection molds which define injection cavities mounted on one member,
- a plurality of juxtaposed co-injection nozzles mounted on a juxtaposable member,
- means for juxtaposing and abutting the co-injection nozzles with the cavities of the injection molds,
- a source of polymer material located upstream of the nozzles, for each material which is to form a layer of a plurality of multi-layer containers,
- means for moving and applying pressure to each polymer stream of material which is to form a layer of a plurality of containers,
- means defining a flow channel for each stream of polymer material which is to form a layer of a plurality of containers, each flow channel for each stream of material extending from moving means to each of more than one co-injection nozzle,
- each of said flow channels being separate and having providing substantially the same flow path for each polymer stream of the same material which is channeled to each of more than one co-injection nozzle and which is to form a corresponding layer of each container.
- 29. The apparatus of claim 28 wherein in the apparatus there are fewer sources than moving means, there are polymer stream flow channels between and communicating with the respective sources and moving means, and wherein one flow channel from the source is split such that each of the split flow channels communicates with a moving means, and the path of each split flow channel for the same material between the sources and moving means is substantially the same.
- 30. The apparatus of claim 28 wherein the apparatus includes a separate passageway in each nozzle for each polymer material, which is to form a layer of the container each of said passageways communicates with the appropriate flow channel for each polymer material which is to form a layer of the container, and the length of each ay and its associated and communicating flow channel extending to the moving means for one polymer stream which is to form a layer, is substantially the same as that for each other polymer stream of the same material which is to be injected from each other nozzle and which is to form a corresponding layer in each other container.
- 31. The apparatus of claim 29 wherein the apparatus includes a separate passageway in each nozzle for each polymer material, which is to form a layer of the container each of said passageways communicates with the appropriate flow channel for each polymer material which is to form a layer of the container, and the length of each nozzle passageway and its associated and communicating flow channel extending to the moving means for one polymer stream which is to form a layer, is substantially the same as that for each other polymer stream of the same material which is to be injected from each other nozzle and which is to form a corresponding layer in each other container.
- 32. The apparatus of claim 28 wherein there is included adjacent, between and equidistant from the plurality of nozzles, means for arranging the respective channels in a linear pattern, means for splitting each linearly-arranged channel into sets of branched flow channels, means for rearranging each set of said linearly-arranged branched flow channels and aligning them in an axial direction substantially parallel to the axis of each of the nozzles, and means for directing each of said linearly-arranged axially-aligned branched flow channels toward and causing them to communicate with each of the respective nozzles.
- 33. The apparatus of claim 29 wherein there is included adjacent, between and equidistant from the plurality of nozzles, means for arranging the respective channels in a linear pattern, means for splitting each linearly-arranged channel into sets of branched flow channels, means for rearranging each set of said linearly-arranged branched flow channels and aligning them in an axial direction substantially parallel to the axis of each of the nozzles, and means for directing each of said linearly-arranged axially-aligned branched flow channels toward and causing them to communicate with each of the respective nozzles.
- 34. The apparatus of claim 30 wherein there is included adjacent, between and equidistant from the plurality of nozzles, means for arranging the respective channels in a linear pattern, means for splitting each linearly-arranged channel into sets of branched flow channels, means for rearranging each set of said linearly-arranged branched flow channels and aligning them in an axial direction substantially parallel to the axis of each of the nozzles, and means for directing each of said linearly-arranged axially-aligned branched flow channels toward and causing them to communicate with each of the respective nozzles.
- 35. The apparatus of claim 32 wherein there are eight nozzles arranged in a rectangular pattern of two columns of four equidistant nozzles in each column with a nozzle at each corner of said rectangular pattern, the aligned pattern of flow channels is located axially along a line between the middle set of four nozzles of said rectangular pattern, and, from said vertical axially-aligned and offset pattern which is parallel to the axis of each of the nozzles, each of said channels is directed to, and the apparatus includes, T-splitting means for splitting each of said channels into T-split channels flowing in opposite directions and communicating With, and the apparatus includes, Y-splitting means which Y-split each of the respective T-split channels into two diagonally divergent Y-split channels one of which communicates with one, and the other of which communicates with the other of the two respective nozzles near the top on each one side, and the opposingly Y-split channels likewise communicating with the two nozzles on the other side of the lowermost and uppermost nozzles of the rectangular pattern.
- 36. The apparatus of claim 32 wherein there are eight nozzles arranged in a rectangular pattern of two columns of four equidistant nozzles in each column with a nozzle at each corner of said rectangular pattern, the aligned pattern of flow channels is located axially along a line between the middle set of four nozzles of said rectangular pattern, and, from said vertical axially-aligned and offset pattern which is parallel to the axis of each of the nozzles, each of said channels is directed to, and the apparatus includes, T-splitting means for splitting each of said channels into T-split channels flowing in opposite directions and communicating with, and the apparatus includes, Y-splitting means which Y-split each of the respective T-split channels into two diagonally divergent Y-split channels one of which communicates with one, and the other of which communicates with the other of the two respective nozzles near the top on each one side, and the opposingly Y-split channels likewise communicating with the two nozzles on the other side of the lowermost and uppermost nozzles of the rectangular pattern.
- 37. The apparatus of claim 28 wherein there is included valve means operative in the co-injection nozzles for controlling the flow and non-flow of the polymer materials from the injection cavities of the co-injection nozzles into the injection molds.
- 38. The apparatus of claim 37 wherein the valve means includes an elongated sleeve having a side wall with a port therein, an open end, and an elongated central passageway in communication with the port and the open end, and an elongated pin mounted and adapted to axially reciprocate within the sleeve central passageway and having a side wall whose outer surface is adapted to close and open said port and is in a close tolerance slip fit within said central passageway.
- 39. A multi-co-injection nozzle injection molding apparatus for an injection molding machine, for injection molding a plurality of multi layer, multi-material plastic articles, which comprises,
- a source of polymer material for each material which is to form a layer of a plurality of articles, runner means located downstream of the sources of polymer materials,
- a plurality of co-injection nozzles each having an axial central channel and a plurality of polymer flow stream passageways in communication with the central channel, and each mounted in the front of the runner means, said runner means being configured to include a plurality of polymer flows stream channels each for separately channelling a polymer melt material which is to form a layer of a plurality of articles from the source to each of more than one of the co-injection nozzles,
- means for moving each stream of polymer material from the moving means through the flow channels and into more than one of the respective nozzles, and,
- valve means cooperatively associated with and operative within the nozzles for there preventing and allowing the flow of the respective polymer melt materials from said passageways into the central channel of the injection nozzles for the injection of a combined stream of said materials as a shot from each of the more than one of the co-injection nozzles into a juxtaposed injection cavity.
- 40. A multi-coinjection nozzle injection molding apparatus for forming an at least five layer, substantially-rigid plastic article, which comprises,
- a plurality of co-injection nozzles,
- a source of polymeric material located upstream of the nozzles, for each polymeric material which is to form one or more layers of the at least five layer article,
- each of said co-injection nozzles including an open end, a gate at the open end, a cylindrical central channel in communication with the gate, and at least five polymer material melt flow stream passageways, each having an orifice in communication with the central channel and each adapted to pass a melt flow stream of polymeric material through the orifice into the central channel, there being a first passageway more proximate the gate than the other orifices for passing a melt stream of material into the central channel for forming the outside surface layer of the article, a second internal passageway for passing a melt stream of material into the central channel for forming an internal layer of the article, a third passageway more remote from the gate than the other orifices for introducing into the central channel a melt stream of material for forming the inside surface layer of the article, a fourth passageway between the first and second passageways for passing a melt stream of material into the central channel for forming an intermediate layer between the outer surface layer and the internal layer of the article, and a fifth passageway between the internal passageway and the third passageway for passing a melt stream of material into the central channel for forming an intermediate layer between the internal layer and the inside surface layer of the article,
- valve means operative in each nozzle adjacent the orifices for controlling the flow or non-flow of the respective polymeric materials through the orifices and into the central channel,
- said valve means being adapted to in one positional mode block said second orifice while the third orifice is not blocked by the valve means, to in another positional mode not block the first orifice while partially blocking the third orifice, and to in another positional mode not block the first, second and fourth orifices while partially blocking the fifth orifice,
- a common moving means associated with both of the outside and inside surface materials for commonly moving them into and through their respective first and third passageways and orifices, and,
- a common moving means associated with both of the respective intermediate materials for commonly moving each of them into and through their respective fourth and fifth passageways and orifices.
- 41. The apparatus of claim, 40 wherein the valve means includes an elongated sleeve seated in a close tolerance slip fit within and being axially reciprocable within the central channel, and having a central passageway, a forward open end adapted to communicate with the central channel and a wall with a port therein adapted to communicate with the third passageway orifice, said wall being adapted to block and unblock the first, second, fourth and fifth orifices, and is adapted in cooperation with another element of the valve means to block the third orifice, and
- means cooperatively associated with the sleeve for blocking, partially blocking or unblocking the sleeve port.
- 42. The apparatus of claim 41 wherein the means for blocking, partially blocking or unblocking the sleeve port is a stationary member extending only within a rear end portion of the sleeve's central passageway and having an outer wall surface which is in a close tolerance slip fit within the sleeve central passageway.
- 43. A multi-coinjection nozzle injection molding apparatus for forming an at least five layer substantially rigid plastic article, which comprises,
- a plurality of co-injection nozzles,
- a source of polymeric material located upstream of the nozzles, for each polymeric material which is to form one or more layers of the at least five layer article,
- each of said co-injection nozzles including an open end, a gate at the open end, a cylindrical central channel in communication with the gate, and at least five passageways, each having an orifice in communication with the central channel and each adapted to pass a melt flow stream of polymeric material through the orifice into the central channel, there being a first passageway more proximate the gate than the other orifices for passing a melt stream of structural material into the central channel for forming the outside surface layer of the article, a second internal passageway for passing a melt stream of material into the central channel for forming an internal layer of the article, a third passageway more remote from the gate than the other orifices for introducing into the central channel a melt stream of structural material for forming the inside surface layer of the article, a fourth passageway between the first and second passageways for passing a melt stream of material into the central channel for forming an intermediate layer between the outer surface layer and the internal layer of the article, and a fifth passageway between the internal passageway and the third passageway for passing a melt stream of material into the central channel for forming an intermediate layer between the internal layer and the inside surface layer of the article,
- valve means operative in each nozzle adjacent the orifices for controlling the flow or non-flow of the respective polymeric materials through the orifices and into the central channel, said valve means including
- an elongated sleeve seated in a close tolerance slip fit within and being axially reciprocable within the central channel, and having a central passageway, a forward open end adapted to communicate with the central channel and having a wall with a port therein adapted to communicate with the third passageway orifice, said wall being adapted to block and unblock the first, second, fourth and fifth orifices, and is adapted in cooperation with another element of the valve means to block the third orifice, and
- an elongated pin mounted within and axially reciprocable within the sleeve central passageway and having an outer wall surface which is in a close tolerance slip fit within the central passageway of the sleeve,
- said sleeve and pin being cooperatively associated and adapted to be moved to different respective positions, to, in one position, block said third passageway orifice while the first orifice is not blocked, to in another position, partially block the third orifice and not block the first orifice, and to, in another position partially block the fourth orifice and not block the first, second and third orifices,
- a common moving means associated with both of the outside and inside surface materials for commonly moving them into and through their respective first and third passageways and or and,
- a common moving means associated With both of the respective intermediate materials for commonly moving them into and through their respective fourth and fifth passageways and orifices.
- a common moving means associated with both of the respective intermediate materials for commonly moving them into and through their respective fourth and fifth passageways and orifices.
- 44. Apparatus for forming a plurality of multi-layer plastics articles, comprising a plurality of co-injection nozzle means for injecting materials into associated injection molds which define cavities to form the plurality of articles and means for providing streams of materials for injection to form corresponding layers of the articles, including means associated with the nozzle means and adapted to channel each material streams separately to each of a plurality of nozzle means, more than one means for moving the streams of plastic material along their respective channels to more than one of the respective nozzle means to form corresponding layers of a plurality of articles, and means for combining in said nozzle means the streams moved thereto, to form combined streams therein, for injection to form said plurality of articles.
- 45. Apparatus according to claim 44, characterized in that the nozzle means has a stream combining area adjacent an exit end thereof and separate passageways for the material streams in communication with the combining area and the channelling means.
- 46. Apparatus according to claim 44, characterized in that the channelling and moving means are operative to subject corresponding material streams entering the plural nozzle means to substantially identical flow conditions.
- 47. Apparatus according to claim 45, characterized in that the channelling and moving means are operative to subject corresponding material streams entering the plural nozzle means to substantially identical flow conditions.
- 48. Apparatus according to claim 46, characterized in that the said channelling means for corresponding material streams provide flow patterns of substantially identical configuration.
- 49. Apparatus according to claim 46, characterized in that the said channelling means are operative to subject the corresponding streams to substantially the same flow paths.
- 50. Apparatus according to claim 44, characterized by means to effect substantially simultaneous control of the flow or non-flow of the corresponding material streams in the plural nozzle means.
- 51. Apparatus according to claim 45, characterized by means to effect substantially simultaneous control of the flow or non flow of the corresponding material streams in the plural nozzle means.
- 52. Apparatus according to claim 46, characterized by means to effect substantially simultaneous control of the flow of non-flow of the corresponding material stream in the plural nozzle means.
- 53. Apparatus according to claim 50, characterized by said control means including positively-acting, flow-controlling means for each of the nozzle means.
- 54. Apparatus according to any one of claims 44 through 47, characterized by means operative to effect positive initiation and termination of flow of the corresponding material streams substantially simultaneously in the plural nozzle means.
- 55. Apparatus according to claim 54, characterized by the said means comprising positively-acting flow control means in each of the said nozzle means.
- 56. Apparatus according to claims 44, 46, or 47, for use to produce articles having at least three layers, characterized in that each of the nozzle means have, associated therewith, flow controlling means to prevent flow of a corresponding one of the materials to form a corresponding layer of the articles, and means to raise the pressure of the arrested material to a level above the pressure of the materials which are to form other corresponding layers of the articles, the flow-controlling means being operable when the said material has been so pressurized to establish flow of the said material for providing the multi-layer combined stream having at least three layers, one of which is formed by the said material.
- 57. Apparatus according to claim 56, characterized by the flow controlling means being operative substantially simultaneously for each of the nozzle means to establish simultaneous onset of flow of the said material in the plural nozzle means.
- 58. Apparatus according to claim 56, characterized by pressurizing means effective to exert a common pressure on the material controlled by the flow controlling means associated with the plural nozzle means.
- 59. Apparatus according to claim 56, characterized in that said flow controlling means provide positive blocking of the material controlled thereby while said material is pressurized, and means is provided to operate the flow controlling means for all the plural nozzle means substantially simultaneously to effect a positive unblocking of the pressurized material, thereby to establish onset of flow thereof substantially simultaneously in all the nozzle means.
- 60. Apparatus according to claim 57, characterized in that said flow controlling means provide positive blocking of the material controlled thereby while said material is pressurized, and means is provided to operate the flow controlling means for all the plural nozzle means substantially simultaneously to effect a positive unblocking of the pressurized material, thereby to establish onset of flow thereof substantially simultaneously in all the nozzle means.
- 61. Apparatus according to claim 58, characterized in that said flow controlling means provide positive blocking of the material controlled thereby while said material is pressurized, and means is provided to operate the flow controlling means for all the plural nozzle means substantially simultaneously to effect a positive unblocking of the pressurized material, thereby to establish onset of flow thereof substantially simultaneously in all the nozzle means.
- 62. Apparatus according to claim 56, characterized in that the plural nozzle means having flow control means operative to control flow and/or non-flow of at least two material streams.
- 63. Apparatus according to claim 57, characterized in that the plural nozzle means having flow control means operative to control flow and/or non-flow of at least two material streams.
- 64. Apparatus according to claim 58, characterized in that the plural nozzle means having flow control means operative to control flow and/or non-flow of at least two material streams.
- 65. Apparatus according to claim 56, characterized in that each flow control means is or are substantially identical in the plural nozzle means.
- 66. Apparatus according to claim 57, characterized in that each flow control means is or are substantially identical in the plural nozzle means.
- 67. Apparatus according to claim 58, characterized in that each flow control means is or are substantially identical in the plural nozzle means.
- 68. Apparatus according to claim 59, characterized in that each flow control means is or are substantially identical in the plural nozzle means.
- 69. Apparatus for injection molding a plurality of multi-layer, multi-material plastic containers having a side wall with a marginal end portion and whose side wall total thickness below the marginal end portion is from about 0.010 inch to about 0.035 inch, which comprises,
- a plurality of injection molds which define injection cavities, mounted on one member,
- a plurality of juxtaposed co-injection nozzles mounted on a juxtaposable member,
- means for juxtaposing and abutting the co-injection nozzles with the cavities of the injection molds,
- a source of polymer material located upstream of the nozzles, for each material which is to form one or more layer(s) of a plurality of multi-layer containers,
- means for moving and applying pressure to each polymer stream of material which is to form a layer of a plurality of containers,
- means defining a flow channel for each stream of polymer material which is to form a layer of a plurality of containers, each flow channel for each stream of material extending from each moving means to each of a plurality of co-injection nozzles,
- each of said flow channels being separate and having and providing substantially the same polymer flow path for each polymer stream of the same material in its path to each of a plurality of co-injection nozzles and which is to form a corresponding layer of each of a plurality of containers.
- 70. A multi-co-injection nozzle injection molding apparatus for an injection molding machine, for injection molding a plurality of multi layer, multi-material plastic articles, which comprises,
- a source of polymer material for each material layer of a plurality of articles,
- runner means located downstream of the sources of polymer materials,
- a plurality of co-injection nozzles each having an axial central channel and a plurality of polymer flow stream passageways in communication with the central channel, and each mounted in the front of the runner means, said runner means being configured to include a plurality of polymer flow stream channels each for separately channeling a polymer melt material which is to form one or more layers of a plurality of articles, from the source to each of more than one of the co-injection nozzles,
- means for moving each stream of polymer material which is to form a layer from the moving means through the flow channels and into more than one of the respective nozzles, and,
- valve means cooperatively associated with and operative within the nozzles for there preventing and allowing the flow of the respective polymer melt materials from said passageways into the central channel of the injection nozzles for the injection of a combined stream of said materials as a shot from each of the more than one co-injection nozzles into juxtaposed injection cavities.
- 71. The apparatus according to claim 39, 44, 69 or 70 wherein each of said separate flow channels provide substantially the same flow path for each polymer stream of the same material which is channeled to each co-injection nozzle and which is to form a corresponding layer of the injected container or articles(s).
- 72. The apparatus according to claim 28, 39, 44, 69 or 70 wherein the flow channels comprise a long runner system.
Parent Case Info
This application is a continuation, of application Ser. No. 283,000, filed 12/02/88 now abandoned, which is a continuation, of application Ser. No. 06/909,941, filed 09/19/86 now abandoned, which is division of application Ser. No. 484,707, filed Apr. 13, 1983, now U.S. Pat. No. 4,712,990.
US Referenced Citations (52)
Non-Patent Literature Citations (2)
Entry |
Multilayer Blow Molding Techniques Using Ring Piston Accumulator Method, Iwawaki (no date). |
Fundamentals of Polymer Processing: S. Middleman; 1977 pp. 120-121. |
Divisions (1)
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Number |
Date |
Country |
Parent |
484707 |
Apr 1983 |
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Continuations (2)
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Number |
Date |
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Parent |
283000 |
Dec 1988 |
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Parent |
909941 |
Sep 1986 |
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