Claims
- 1. Apparatus for selectively controlling the flow of at least three melt material streams through the nozzle of a machine for injection molding multi-layer plastic articles from the melt materials, wherein the nozzle has a central channel open at one end, comprising a flow passageway in the nozzle for each material stream, each of the flow passageways terminating at an exit orifice, at least two of said orifices communicating with the nozzle central channel at locations close to the open end, sleeve means having at least one internal axial material flow passageway communicating with the nozzle central channel and adapted to communicate with one of the flow passageways in the nozzle, said sleeve means being carried in said nozzle central channel and being moveable to selected positions to block and unblock said orifices and to bring said internal axial material flow passageway into and out of communication with said one of the flow passageways and to permit simultaneous flow of at least two polymer streams through said nozzle central channel.
- 2. The apparatus of claim 1 wherein the communication from the internal axial passageway of the sleeve means to said one passageway in the nozzle is through an aperture in the wall of the sleeve means.
- 3. The apparatus of claim 2 wherein the sleeve means is adapted for one or both of axial movement in the central channel of the nozzle or rotational movement in said channel whereby said sleeve, when moved therein to selected positions, blocks and unblocks one or more of said orifices and brings said aperture into and out of alignment with said flow passageway.
- 4. The apparatus of claim 1 wherein the exit orifices completely surround the nozzle central channel.
- 5. The apparatus of claim 1 wherein the exit orifices are annular and completely surround the nozzle central channel.
- 6. The apparatus of claim 1 wherein said sleeve means fits closely within said nozzle central channel whereby there is no substantial cavity for polymer accumulation between said sleeve means and said central channel.
- 7. The apparatus of claim 5 wherein the plane of at least one exit orifice is perpendicular to the axis of the central channel of the nozzle.
- 8. The apparatus of claim 5 wherein the plane of at least one exit orifice is not perpendicular to the axis of said central channel.
- 9. The apparatus of claim 1 wherein five material streams are controlled.
- 10. The apparatus of claim 2 wherein five material streams are controlled.
- 11. The apparatus of claim 3 wherein five material streams are controlled.
- 12. The apparatus of claim 9 wherein the nozzle includes four exit orifices communicating with the nozzle central channel and wherein the sleeve means has one internal flow passageway and one aperture in the wall thereof.
- 13. The apparatus of claim 1 wherein five material streams are controlled, wherein the nozzle includes four exit orifices communicating with the nozzle central channel and wherein the sleeve means includes one internal material flow passageway and has one aperture in the wall thereof.
- 14. The apparatus of claim 1 further comprising material flow directing means for balancing the flow of at least one material stream around and said flow directing means being associated with the flow passageway and exit orifice through which the stream flows.
- 15. The apparatus of claim 1 wherein at least two of the exit orifices are located close to each other and to the open end of the nozzle central channel.
- 16. The apparatus of claim 14 further comprising means for pressurizing at least one material stream.
- 17. The apparatus of claim 1 further comprising material flow directing means in at 1east one of said flow passageways for balancing the flow of at 1east one material stream around said passageway and the exit orifice through which it flows, and means for pressurizing said stream to produce a pressurized reservoir of material in said flow passageway between said flow directing means and said orifice, whereby, when the sleeve means unblocks said orifice, the start of flow of said material through said orifice is substantially uniform around the orifice.
- 18. The apparatus of claim 17 wherein said at least one flow passageway is tapered toward its associated orifice from a wide gap remote from the orifice to a narrow gap at the orifices.
- 19. Apparatus for selectively controlling the flow of at least three melt material streams through the nozzle of a machine for injection molding multi-layer plastic articles from the melt materials, wherein the nozzle has a central channel open at one end, comprising a flow passageway in the nozzle for each material stream, each of the flow passageways terminating at an exit orifice at least two of said orifices communicating with the nozzle central channel at locations close to the open end, sleeve means having a mouth and at least one internal axial material flow passageway, said sleeve means and mouth being adapted to provide a polymer stream orifice in communication with the nozzle central channel, said sleeve means also being adapted to communicate with a flow feed passageway external of the nozzle and with one or more of the flow passageways, said sleeve means being carried in said nozzle central channel and being moveable to selected positions to block and unblock said nozzle orifices, to bring said internal axial passageway into and out of communication with one or more of the flow passageways and to permit simultaneous flow of at least two polymer streams through said nozzle central channel.
- 20. The apparatus of claim 19 wherein the communication from the internal axial passageway of the sleeve means to said one passageway in the nozzle is through an aperture in the wall of the sleeve means.
- 21. The apparatus of claim 20 wherein the sleeve means is adapted for one or both of axial movement in the central channel of the nozzle or rotational movement in said channel whereby said sleeve, when moved therein to selected positions, blocks and unblocks one or more of said orifices and brings said aperture into and out of alignment with said flow passageway.
- 22. Apparatus for selectively controlling the flow of at least three melt material streams through the nozzle of a machine for injection molding multi-layer plastic articles from the melt materials, wherein the nozzle has a central channel open at one end, comprising a flow passageway in the nozzle for each of at least two material streams, each of the at least two flow passageways terminating at an exit orifice, each of said exit orifices communicating with the central channel, sleeve means having a front end facing the open end of the central channel and a back end and at least one internal axial material flow passageway communicating with the nozzle central channel and adapted to communicate with one of the flow passageways, said back end being adapted to communicate with a third flow feed passageway external of and behind the sleeve and nozzle, said sleeve means being carried in said nozzle central channel and being moveable to selected positions to block and unblock each of said orifices, to bring said internal axial passageway into and out of communication with one of said flow passageways and to permit simultaneous flow of at least two polymer streams through said nozzle central channel.
- 23. The apparatus of claim 22 wherein the communication from the internal axial passageway of the sleeve means to said one passageway in the nozzle is through a port in the wall of the sleeve means.
- 24. Apparatus for selectively controlling the flow of at least three melt material streams through the nozzle of a machine for co-injecting the materials into a cavity to form thin wall multi-layer plastic articles having at least one thin internal layer having a terminal end, and wherein the nozzle has a central channel open at one end, comprising a flow passageway in the nozzle for each material stream, the one for the internal layer being annular valve means in the central channel moveable to selected positions to block and unblock one or more of said passageways so as to bring said passageways into and out of communication with said central channel, and material flow directing means associated with the nozzle for balancing the flow of the material stream which forms said internal layer around the nozzle passageway through which that stream flows, whereby the location of the terminal end of said internal layer is substantially uniform in the injected article at the conclusion of polymer movement in said injection cavity.
- 25. The apparatus of claim 24 wherein there are five passageways.
- 26. The apparatus of claim 24 further comprising means for pressurizing at least the internal layer material stream.
- 27. The apparatus of claim 24 wherein the material flow directing means is located in the flow passageway for the flow stream of the material which forms said internal layer, and further comprising means for pressurizing said stream to produce a pressurized reservoir of material in said flow passageway between said flow directing means and the exit of said passageway to said central channel, whereby, when the valve means unblocks said passageway, the start of flow of said material into said central channel is substantially uniform around the channel.
- 28. The apparatus of claim 27 wherein said flow passageway for the flow stream which forms the internal layer is tapered such that it has a wide gap remote from its associated orifice and has a narrow gap at the orifice.
- 29. The apparatus of claim 24 further comprising means for pressurizing at least the outer layer material stream.
- 30. The apparatus of claim 24 wherein the material flow directing means is located in the flow passageway for the flow stream of the material which forms said outer layer, and further comprising means for pressurizing said stream to produce a pressurized reservoir of material in said flow passageway between said flow directing means and the exit of said passageway to said central channel, whereby, when the valve means unblocks said passageway, the start of flow of said material into said central channel is substantially uniform around the channe1.
- 31. The apparatus of claim 28 wherein said flow passageway for the flow stream which forms the outer layer is tapered such that it has a wide gap remote from its associated orifice and has a narrow gap at the orifice.
- 32. The apparatus of claim 24 further comprising means for pressurizing at least the outer and internal layer material streams.
- 33. Apparatus for selectively controlling the flow of at least three melt material streams through the nozzle of a machine for co-injection the materials into a cavity to form thin wall multi-layer plastic articles having at least one thin internal layer having a terminal end, wherein the nozzle has a central channel open at one end, comprising a flow passageway in the nozzle for each material stream, at least two of the flow passageways terminating at an exit orifice, the orifice for the internal layer being annular, each of said orifices communicating with the nozzle central channel at locations close to the open end, sleeve means having at least one internal axial flow passageway communicating with the nozzle central channel and adapted to communicate with one of the flow passageways in the nozzle, said sleeve means being carried in said nozzle central channel and being moveable to selected positions to block and unblock one or more of said orifices and to bring said internal axial passageway into and out of communication with said flow passageway, and material flow directing means for balancing the flow of the material stream which forms said internal layer around and said flow directing means being associated with the flow passageway and the exit orifice through which said stream flows, whereby the location of the terminal end of said internal layer is substantially uniform in the injected article at the conclusion of polymer movement in said injection cavity.
- 34. The apparatus of claim 33 wherein there are five passageways terminating at exit orifices close to the open end.
- 35. The apparatus of claim 33 further comprising means for pressurizing at least the internal layer material stream.
- 36. The apparatus of claim 33 wherein the material flow directing means is located in the flow passageway for the flow stream of the material which forms said internal layer, and further comprising means for pressurizing said stream to produce a pressurized reservoir of material in said flow passageway between said flow directing means and said orifice, whereby, when the sleeve means unblocks said orifice, the start of flow of said material through said orifice is substantially uniform around the orifice.
- 37. Apparatus for selectively controlling the flow of at least three melt material streams through the nozzle of a machine for co-injecting the materials into a cavity to form thin wall multi-layer plastic articles having at least an outer layer having a terminal end, and wherein the nozzle has a central channel open at one end, comprising a flow passageway in the nozzle for each material stream, valve means in the central channel moveable to selected positions to block and unblock said passageways so as to bring said passageways into and out of communication with said central channel, and material flow directing means for balancing the flow of the material stream which forms said outer layer around and said flow directing means being associated with the flow passageway through which that stream flows, whereby the location of the terminal end of said outer layer is substantially uniform in the injected article at the conclusion of polymer movement in said injection cavity.
- 38. Apparatus for selectively controlling the flow of at least three melt material streams through the nozzle of a machine for co-injecting the materials into a cavity to form thin wall multi-layer plastic articles having an outer layer having a terminal end, wherein the nozzle has a central channel open at one end, comprising a flow passageway in the nozzle for each material stream, at least two of the flow passageways terminating at an exit orifice, each of said orifices communicating with the nozzle central channel at locations close to the open end, sleeve means having at least one axial flow passageway communicating with the nozzle central channel and adapted to communicate with one of the flow passageways in the nozzle, said sleeve means being carried in said nozzle central channel and being moveable to selected positions to block and unblock the orifices and to bring said outer axial passageway into and out of communication with said flow passageway, and material flow directing means for balancing the flow of the material stream which forms said outer layer around and said flow directing means being associated with the flow passageway and exit orifice through which said stream flows, whereby the location of the terminal end of said outer layer is substantially uniform in the injected article at the conclusion of polymer movement in said injection cavity.
- 39. The apparatus of claim 38 further comprising means for pressurizing at least the outer layer material stream.
- 40. The apparatus of claim 38 wherein the material flow directing means is located in the flow passageway for the flow stream of the material which forms said outer layer, and further comprising means for pressurizing said stream to produce a pressurized reservoir of material in said flow passageway between said flow directing means and said orifice, whereby, when the sleeve means unblocks said orifice, the start of flow of said material through said orifice is substantially uniform around the orifice.
- 41. Apparatus for selectively controlling the flow of at least three melt material streams through the nozzle of a machine for co-injecting the materials into a cavity to form thin wall multi-layer plastic articles having an outer layer and at least one thin internal layer, each of the layers having a terminal end, and wherein the nozzle has a central channel open at one end, comprising a flow passageway in the nozzle for each material stream, valve means in the central channel moveable to selected positions to block and unblock said passageways for the outer layer and the at least one internal layer which are annular so as to bring said passageways into and out of communication with said central channel, and material flow directing means for balancing the flows of the material streams which form said outer layer and internal layer around and said flow directing means being associated with the respective flow passageways through which each of said two streams flow, whereby the location of the terminal ends of each of said outer layer and said internal layer are substantially uniform in the injected article at the conclusion of polymer movement in said injection cavity.
- 42. The apparatus of claim 41 wherein the material flow directing means is located in the flow passageway for the flow stream of each of the material which forms said outer layer and said internal layer, and further comprising means for pressurizing each of said streams to produce a pressurized reservoir of material in each of said flow passageways between said flow directing means and the exits of said passageways to said central channel, whereby, when the valve means unblocks said passageways, the starts of flow of said materials into said central channel are substantially uniform around the channel.
- 43. Apparatus for selectively controlling the flow of at least three melt material streams through the nozzle of a machine for co-injecting the materials into a cavity to form thin wall multi-layer plastic articles having an outer layer and at least one thin internal layer, each of the layers having a terminal end, wherein the nozzle has a central channel open at one end, comprising a flow passageway in the nozzle for each material stream, at least two of the flow passageways terminating at an exit orifice, each of said orifices communicating with the nozzle central channel at locations close to the open end, sleeve means having at least one internal axial flow passageway communicating with the nozzle central channel and adapted to communicate with one of the flow passageways in the nozzle, said sleeve means being carried in said nozzle central channel and being moveable to selected positions to block and unblock the orifices for the outer layer and the at least one internal layers which are annular and to bring said internal axial passageways into and out of communication with said flow passageways, and material flow directing means associated with the flow passageway for balancing the flows of the material streams which form said outer layer and said internal layer around the flow passageways and exit orifices through which said streams flow, whereby the location of the terminal ends of each of said outer layer and said internal layer are substantially uniform in the injected article at the conclusion of polymer movement in said injection cavity.
- 44. The apparatus of claim 43 further comprising means for pressurizing at least the outer and internal layer material streams.
- 45. The apparatus of claim 43 wherein the material flow directing means is located in the flow passageways for the flow streams of the materials which form said outer layer and said internal layer, and further comprising means for pressurizing each of said streams to produce a pressurized reservoir of material in each of said flow passageways between said flow directing means and said orifices, whereby, when the sleeve means unblocks said orifices, the start of flow of said materials through said orifices are substantially uniform around the orifices.
- 46. Co-injection nozzle means for a multi-polymer injection blow molding machine for co-injecting at least three streams of melt materials to form a multi-layer article therefrom, which comprises:
- a co-injection nozzle having
- an axially extending central channel,
- a gate in communication with the central channel,
- at least three polymer stream passageways each having an annular orifice, the first of said orifices being proximate of the gate, the second of said orifices being adjacent the first orifices, and the third of said orifices being more remote from the gate than said other orifices, wherein at least the second passageway has a tapered, fixed portion adjacent its respective orifice such that each orifice has a smaller cross-sectional gap than an upstream adjacent portion of its respective passageway.
- 47. Co-injection nozzle means for a multi-polymer injection blow molding machine for co-injecting at least three streams of melt materials to form a multi-layer article therefrom, which comprises:
- a co-injection nozzle having
- an axially extending central channel,
- a gate in communication with the central channel,
- at least three polymer stream passageways each having an annular orifice, the first of said orifices being proximate the gate, the second of said orifices being adjacent the first orifice, and the third of said orifices being more remote from the gate than said other orifices, wherein each of the first and second passageways has a tapered portion adjacent its respective orifice such that each orifice has a smaller cross-sectional gap than an upstream adjacent portion of its respective passageway.
- 48. Apparatus for use in a multi-coinjection nozzle injection molding machine for injection molding a multi-layer plastic article, which comprises,
- co-injection nozzle means for co-injecting at least three streams of melt materials to form the multi-layer article therefrom, said co-injection nozzle means having
- an axially extending central channel,
- a gate in communication with the central channel,
- at least three polymer stream passageways each having an annular orifice, the first of said orifices being proximate the gate, the second of said orifices being adjacent the first orifice and the third of said orifices being more remote from the gate than said other orifices, wherein at least the first or second passageway has a tapered fixed portion adjacent its respective orifice such that each orifice has a smaller cross-sectional gap than an upstream adjacent portion of its respective passageway,
- valve means operative in the central channel for blocking and unblocking at least two of the orifices at least one of which is so tapered, and,
- means for displacing polymer melt material through each passageway and passageway orifice, and for pressurizing a melt material in a tapered passageway while its orifice is blocked by the valve means.
- 49. The co-injection nozzle means of claim 48 wherein each of the first and second passageways has a tapered portion.
- 50. The apparatus of claim 48 wherein the means for displacing and pressurizing the material includes a ram.
- 51. The apparatus of claim 48 wherein for each material stream there is a means for displacing and pressurizing melt material, and each means is adapted to pressurize the melt material in its passageway while its passageway orifice is blocked by said valve means.
- 52. The apparatus of claim 48 wherein the passageway in communication with the first orifice has in communication therewith means for balancing the flow of the melt stream material through said passageway.
- 53. The apparatus of claim 49 wherein each passageway includes in communication therewith means for balancing the flow of the melt material through said passageway.
- 54. The apparatus of claim 53 wherein the flow balancing means includes an eccentric choke which protrudes from one of the respective passageway walls into the passsageway.
- 55. The co-injection nozzle means of claim 48 wherein the nozzle means includes drive means for driving the valve means, and the valve means are adapted to move to a position which blocks all orifices and to a position which unblocks all orifices, within a time period of about 75 centiseconds.
- 56. The co-injection nozzle means of claim 55 wherein the valve means includes an elongated pin axially moveable within the sleeve and adapted to have a close tolerance slip fit throughout most of the operative length of the sleeve which prevents a significant accumulation of polymer material between the sleeve and pin and to prevent flow through the third orifice.
- 57. Co-injection nozzle means for a multi-coinjection nozzle, multi-polymer stream injection molding machine for injection thin multi-layer articles, which comprises,
- a co-injection nozzle having a gate, an axially extending cylindrical central channel in communication with the gate, and at least first and second fixed polymer stream passageways each having and being tapered toward a narrow annular fixed passageway orifice in communication with the central channel,
- each orifice being defined by leading and trailing lips, and each having a center line which lies substantially perpendicular to the axis of the central channel, the first orifice having its center line within about 350 mils of the gate, the second orifice having its center line within about 250 mils of the center line of the first orifice, and the leading lip of the first orifice and the trailing lip of the second orifice being no greater than about 300 mils apart.
- 58. The co-injection nozzle means of claim 57 wherein there is included valve means operative in the central channel, and adapted to block and unblock the co-injection nozzle orifices.
- 59. The co-injection nozzle means of claim 57 wherein there is included valve means operative in the central channel, the valve means including an elongated sleeve having a mouth adapted to provide a third polymer stream orifice in communication with the central channel area at least adjacent the trailing lip of the second orifice.
- 60. The co-injection nozzle means of claim 58 wherein the nozzle means includes drive means for driving the valve means, and the valve means are adapted to move to a position which blocks all orifices and to a position which unblocks all orifices, within a time period of about 75 centiseconds.
- 61. The co-injection nozzle means of claim 59 wherein the nozzle means includes drive means for driving the valve means, and the valve means are adapted to move to a position which blocks all orifices and to a position which unblocks all orifices, within a time period of about 75 centiseconds.
- 62. The co-injection nozzle means of claim 59 wherein the valve means includes an elongated pin axially moveable within the sleeve and adapted to have a close tolerance slip fit throughout most of the operative length of the sleeve which prevents a significant accumulation of polymer material between the sleeve and pin and to prevent flow through the third orifice.
- 63. The co-injection nozzle means of claim 60 wherein the valve means includes an elongated pin axially moveable within the sleeve and adapted to have a close tolerance slip fit throughout most of the operative length of the sleeve which prevents a significant accumulation of polymer material between the sleeve and pin and to prevent flow through the third orifice.
- 64. The co-injection nozzle means of claim 61 wherein the valve means includes an elongated pin axially moveable within the sleeve and adapted to have a close tolerance slip fit throughout most of the operative length of the sleeve which prevents a significant accumulation of polymer material between the sleeve and pin and to prevent flow through the third orifice.
- 65. Co-injection nozzle means for a multi-polymer injection blow molding for co-injecting at least three streams of melt materials to form a thin multi-layer article therefrom, which comprises,
- a co-injection nozzle having
- an axially extending cylindrical central channel,
- a gate in communication with the central channel,
- at least three polymer stream passageways each having a fixed orifice, the first of said orifices being proximate the gate, the second of said orifices being adjacent the first orifice, and the third orifice being remote from said gate, each of the first and second of said orifices being narrow, annular and defined by a leading lip and a trailing lip, said central channe1 having a combining area which is a cylindrical portion of the central channel extending from the forward lip of the first orifice to the trailing lip of the annular orifice most remote from the gate in which area all polymer streams combine into a combined flow stream for injection from the nozzle, said combining area having an axial length of from about 100 to about 900 mils valve means located in the central channel and adapted to and there-operative to block and unblock each of the orifices.
- 66. The co-injection nozzle means of claim 65 wherein the axial length of the combining area is from about 100 to about 300 mils.
- 67. The co-injection nozzle means of claim 65 wherein the valve means includes means axially moveable forward through the combining area towards the gate for clearing the combined polymer flow stream from the combining area.
- 68. The co-injection nozzle means of claim 67 wherein the valve means includes means adapted at its forward end to provide an area for accumulating polymer material prior to effecting its clearing action.
- 69. The co-injection nozzle means of claim 66 wherein the valve means includes means axially moveable forward through the combining area towards the gate for clearing the combined polymer flow stream from the combining area.
- 70. The co-injection nozzle means of claim 69 wherein the valve means includes means adapted at its forward end to provide an area for accumulating polymer material prior to effecting its clearing action.
- 71. The co-injection nozzle means of claim 65 wherein the valve means is adapted to be placed in a position in the combining area wherein the valve means block and prevent the flow of polymer material through all of the orifices.
- 72. The co-injection nozzle means of claim 65 wherein the combining area of the central channel has a uniform cross-sectional area.
- 73. A co-injection nozzle means of claim 65 wherein there is included valve means in cooperative association with the central channel, and adapted to block and unblock the co-injection nozzle orifices, the valve means including an elongated sleeve having a mouth adapted to provide another polymer stream orifice in communication with the central channel area at least adjacent the trailing lip of the second orifice, and to block and prevent flow of polymer material through each of the fixed orifices.
- 74. The co-injection nozzle means of claim 73 wherein the passageway having the first orifice has a leading wall which extends diagonally towards the gate and towards the axis of the central channel and communicates with the leading lip of the first orifice, such that the end portion of the leading wall is closer to the axis of the central channel than the trailing lip of said orifice, and wherein the sleeve wall has a tapered mouth which defines the sleeve open end and is adapted to abut against the end portion of said leading wall to prevent further forward movement of the sleeve in the central channel toward the gate and to block said first orifice.
- 75. Co-injection nozzle means for a multi-polymer injection blow molding machine for co-injecting at 1east three streams of melt materials te form a thin multi-layer article therefrom, which comprises,
- a co-injection nozzle having
- an axially extending cylindrical central channel,
- a gate in communication with the central channel,
- at least three polymer stream passageways each having a fixed orifice, there being two of said at least three orifices close to the gate, the first of said orifices being proximate the gate, the second of said orifices being adjacent the first orifice, and the third orifice being remote from said gate, each of the first and second of said orifices being narrow, annular and being defined by a leading lip and a trailing lip, said central channel having a combining area which is a cylindrical portion of the central channel defined at either end by the forward lip of the first orifice and the trailing lip of the annular orifice most remote from the gate in which area all polymer streams combine into a combined flow stream for injection from the nozzle and wherein said combining area has an axial length of from about 100 to about 900 mils and wherein the leading lip of the first orifice is within from about 100 to about 900 mils from the gate valve means located in the central channel and adapted to and there operative to block and unblock each of the orifices.
- 76. The co-injection nozzle means of claim 75 wherein the axial length of the combining area is from about 100 to about 300 mils and wherein the leading lip of the first orifice is within from about 100 to about 300 mils of the gate.
- 77. The co-injection nozzle means of claim 75 wherein the valve means includes means axially moveable forward through the combining area towards the gate for clearing the combined polymer flow stream from the combining area.
- 78. The co-injection nozzle means of claim 77 wherein the valve means includes valve means adapted at its forward end to provide an area for accumulating polymer material prior to effecting the clearing action.
- 79. The co-injection nozzle means of claim 76 wherein the valve means includes means axially moveable forward through the combining area towards the gate for clearing the combined polymer flow stream from the combining area.
- 80. The co-injection nozzle means of claim 79 wherein the valve means includes valve means adapted at its forward end to provide an area for accumulating polymer material prior to effecting the clearing action.
- 81. The co-injection nozzle means of claim 77 wherein there is included drive means cooperatively associated with the valve means for driving the valve means, and wherein the valve means and drive means are adapted to enable the valve means to unblock all orifices within from about 15 to about 75 centiseconds.
- 82. The co-injection nozzle means of claim 77 wherein there is included drive means cooperatively associated with the valve means for driving the valve means, and wherein the valve means and drive means are adapted to enable the valve means to unblock all orifices within from about 15 to about 300 centiseconds.
- 83. The co-injection nozzle means of claim 79 wherein the valve means and drive means are also adapted to enable the valve means to unblock all orifices within from about 15 to about 75 centiseconds.
- 84. The co-injection nozzle means of claim 79 wherein the valve means and drive means are also adapted to enable the valve means to unblock all orifices within from about 15 to about 300 centiseconds.
- 85. The co-injection nozzle means of claim 83 wherein the valve means includes means axially moveable forward through the combining area towards the gate for clearing the combined polymer flow stream from the combining area.
- 86. The co-injection nozzle means of claim 85 wherein the valve means includes means adapted at its forward end to provide an area for accumulating polymer material prior to effecting the clearing action.
- 87. The co-injection nozzle means of claim 71 wherein the valve means is adapted to be placed in a position in the combining area wherein all orifices are blocked.
- 88. The co-injection nozzle means of claim 75 wherein the combining area of the central channel has a uniform cross-sectional area.
- 89. Co-injection nozzle means for a multi-polymer injection blow molding machine for co-injecting at least three streams of melt materials to form a thin multi-layer article therefrom, which comprises,
- a co-injection nozzle having
- an axially extending cylindrical central channel,
- a gate in communication with the central channel,
- at 1east three polymer stream passageways each having a fixed orifice, there being two of said at least three orifices close to the gate, the first of said orifices being proximate the gate, the second of said orifices being adjacent the first orifice, and the third orifice being remote from said gate, each of the first and second of said at least three orifices being narrow, annular and defined by a leading lip and a trailing lip, said central channel having a combining area which is a cylindrical portion of the central channel extending from the forward lip of the first orifice to the trailing lip of the annular orifice most remote from the gate in which area all polymer streams combine into a combined flow stream for injection from the nozzle, wherein said combining area has an axial length of from about 100 to about 900 mils, wherein the leading lip of the first orifice is within from about 100 to about 900 mils from the gate, and wherein the center lines of each of the first and second orifices lie substantially perpendicular to the axis of the central channel valve means located in the central channel and adapted to and there operative to block and unblock each of the orifices.
- 90. The co-injection nozzle means of claim 89 wherein the axial length of the combining area is from about 100 to about 300 mils and wherein the leading lip of the first orifice is within from about 100 to about 300 mils from the gate.
- 91. The co-injection nozzle means of claim 89 wherein the valve means includes means axially moveable forward through the combining area towards the gate for clearing the combined polymer flow stream from the combining area.
- 92. The co-injection nozzle means of claim 91 wherein the valve means includes means adapted at its forward end to provide an area for accumulating polymer material prior to effecting its clearing action.
- 93. The co-injection nozzle means of claim 90 wherein the valve means includes means axially moveable forward through the combining area towards the gate for clearing the combined polymer flow stream from the combining area.
- 94. The co-injection nozzle means of claim 93 wherein the valve means includes means adapted at its forward end to provide an area for accumulating polymer material prior to effecting its clearing action.
- 95. The co-injection nozzle means of claim 91 wherein there is included drive means cooperatively associated with the valve means for driving the valve means, and wherein the valve means and drive means are adapted to enable the valve means to unblock all orifices within from about 15 to about 75 centiseconds.
- 96. The co-injection nozzle means of claim 91 wherein there is included drive means cooperatively associated with the valve means for driving the valve means, and wherein the valve means and drive means are adapted to enable the valve means to unblock all orifices within from about 15 to about 300 centiseconds.
- 97. The co-injection nozzle means of claim 95 wherein the valve means includes means for moving axially forward through the combining area towards the gate for clearing the combined polymer flow stream from the combining area.
- 98. The co-injection nozzle means of claim 96 wherein the valve means includes means for moving axially forward through the combining area towards the gate for clearing the combined polymer flow stream from the combining area.
- 99. The co-injection nozzle means of claim 97 wherein the valve means includes means adapted at its forward end to provide an area for accumulating polymer material prior to effecting the clearing action.
- 100. The co-injection nozzle means of claim 89 wherein the valve means is adapted to be placed in a position in the combining area wherein all orifices are blocked.
- 101. The co-injection nozzle means of claim 89 wherein the combining area of the central channel has a uniform cross-sectional area.
- 102. Co-injection nozzle means for a multi-polymer injection blow molding machine for co-injecting at least three streams of melt materials to form a multi-layer article therefrom, which comprises,
- a co-injection nozzle having
- an axially extending cylindrical central channel,
- a gate in communication with the central channel,
- at least three polymer stream passageways each having an orifice, the first of said orifices being proximate the gate, the second of said orifices being adjacent the first orifice, and the third orifice being remote from the gate, each of the first and second of said orifices being annular and defining by a leading lip and a trailing lip, wherein the trailing lip of the second orifice is fixed, said central channel having a combining area extending from the forward lip of the first orifice to the trailing lip of the annular orifice most remote from the gate in which area all polymer streams combine into a combined flow stream for injection from the nozzle and wherein said combining area has an axial length of from about 100 to about 900 mils and wherein each of the first and second passageways has a tapered portion adjacent the orifice such that each orifice has a smaller cross-sectional gap than an adjacent upstream portion of its respective passageway.
- 103. The co-injection nozzle means of claim 102 wherein the axial length of the combining area is from about 100 to about 300 mils.
- 104. The co-injection nozzle means of claim 102 wherein the nozzle orifices which communicate with the combining area are fixed relative to the central channel.
- 105. The co-injection nozzle means of claim 103 wherein the orifices which communicate with the combining area are fixed relative to the central channel.
- 106. The co-injection nozzle means of claim 102 wherein the nozzle includes means axially moveable forward through the combining area towards the gate for clearing the combined polymer flow stream from the combining area.
- 107. The co-injection nozzle means of claim 106 wherein the clearing means includes valve means adapted at its forward end to provide an area for accumulating polymer material prior to effecting the clearing action.
- 108. The co-injection nozzle means of claim 103 wherein the value means includes means axially moveable forward through the combining area towards the gate for clearing the combined polymer flow stream from the combining area.
- 109. The co-injection nozzle means of claim 108 wherein the clearing means includes valve means adapted at its forward end to provide an area for accumulating polymer material prior to effecting the clearing action.
- 110. The co-injection nozzle means of claim 105 wherein the valve means includes means axially moveable forward through the combining area towards the gate for clearing the combined polymer flow stream from the combining area.
- 111. The co-injection nozzle means of claim 110 wherein the clearing means includes valve means adapted at its forward end to provide an area for accumulating polymer material prior to effecting its clearing action.
- 112. The co-injection nozzle means of claim 104 wherein the nozzle includes means axially moveable forward through the combining area towards the gate for clearing the combined polymer flow stream from the combining area.
- 113. The co-injection nozzle means of claim 112 wherein the clearing means includes valve means adapted at its forward end to provide an area for accumulating polymer material prior to effecting its clearing action.
- 114. The co-injection nozzle means of claim 102 wherein there is also included valve means adapted to be placed in a position in the combining area wherein all orifices are blocked.
- 115. The co-injection nozzle means of claim 102 wherein the combining area of the central channel has a uniform cross-sectional area.
- 116. Co-injection nozzle means for a multi-polymer injection blow molding machine for co-injecting at least three streams of melt materials to form a multi-layer article therefrom, which comprises,
- a co-injection nozzle having
- an axially extending cylindrical central channel,
- a gate in communication with the central channel,
- at least three polymer stream passageways each having an orifice, there being two of said at least three orifices close to the gate, the first of said orifices being proximate the gate, the second of said orifices being adjacent the first orifice, and the third orifice being remote from said gate, each of the first and second orifices being narrow, annular and defined by a leading lip and a trailing lip, said central channel having a combining area which is a cylindrical portion defined at either end by the forward lip of the first orifice and the trailing lip of the annular orifice most remote from the gate in which area all polymer streams combine into a combined flow stream for injection from the value means, wherein said combining area has an axial length of from about 100 to about 900 mils and wherein the leading lip of the first orifice is within from about 100 to about 900 mils of the gate and wherein each of the first and second passageways has a fixed tapered portion adjacent the orifice such that each orifice has a smaller cross-sectional gap than an adjacent upstream portion of its respective passageway.
- 117. The co-injection nozzle means of claim 116 wherein the axial length of the combining area is from about 100 to about 300 mils and wherein the leading lip of the first orifice is within from about 100 to about 300 mils of the gate.
- 118. The co-injection nozzle means of claim 116 wherein the nozzle orifices which communicate with the combining area are fixed relative to the central channel.
- 119. The co-injection nozzle means of claim 117 wherein the orifices which communicate with the combining area are fixed relative to the central channel.
- 120. The co-injection nozzle means of claim 116 wherein the nozzle includes means axially moveable forward through the combining area towards the gate for clearing the combined polymer flow stream from the combining area.
- 121. The co-injection nozzle means of claim 120 wherein the clearing means includes valve means adapted at its forward end to provide an area for accumulating polymer material prior to effecting the clearing action.
- 122. The co-injection nozzle means of claim 117 wherein the nozzle includes means axially moveable forward through the combining area towards the gate for clearing the combined polymer flow stream from the combining area.
- 123. The co-injection nozzle means of claim 122 wherein the clearing means includes valve means adapted at its forward end to provide an area for accumulating polymer material prior to effecting the clearing action.
- 124. The co-injection nozzle means of claim 119 wherein the nozzle includes means for moving axially forward through the combining area towards the gate for clearing the combined polymer flow stream from the combining area.
- 125. The co-injection nozzle means of claim 124 wherein the clearing means includes valve means adapted at its forward end to provide an area for accumulating polymer material prior to effecting the clearing action.
- 126. The co-injection nozzle means of claim 118 wherein the nozzle includes means axially moveable forward through the combining area towards the gate for clearing the combined polymer flow stream from the combining area.
- 127. The co-injection nozzle means of claim 126 wherein the clearing means includes valve means adapted at its forward end to provide an area for accumulating polymer material prior to effecting the clearing action.
- 128. The co-injection nozzle means of claim 116 wherein there is also included valve means adapted to be placed in a position in the combining area wherein all orifices are blocked.
- 129. The co-injection nozzle means of claim 116 wherein the combining area of the central channel has a uniform cross-sectional area.
- 130. Co-injection nozzle means for a multi-polymer injection blow molding machine for co-injecting at least three streams of melt materials to form a multi-layer article therefrom, which comprises,
- a co-injection nozzle having
- an axially extending cylindrical central channel,
- a gate in communication with the central channel,
- at least three polymer stream passageways each having a fixed annular orifice, there being two of said at least three orifices close to the gate, the first of said orifices being proximate the gate, the second of said orifices being adjacent the first orifice, and the third orifice being remote from said gate, each of said first and second orifices being narrow, annular and defined by a leading lip and a trailing lip, said central channel having a combining area which is a cylindrical portion of the central channel defined at either end by the forward lip of the first orifice and the trailing lip of the annular orifice most remote from the gate in which area all polymer streams combine into a combined flow stream for injection from the nozzle, wherein said combining area has an axial length of from about 100 to about 900 mils, wherein the leading lip of the first orifice is within from about 100 to about 900 mils of the gate, wherein each of the first and second passageways has a tapered portion adjacent the orifice such that each orifice has a smaller cross-sectional gap than an adjacent upstream portion of its respective passageway, and wherein the center lines of each of the first and second orifices lie substantially perpendicular to the axis of the central channel.
- 131. The co-injection nozzle means of claim 130 wherein the axial length of the combining area is from about 100 to about 300 mils and wherein the leading lip of the first orifice is within from about 100 to about 300 mils of the gate.
- 132. The co-injection nozzle means of claim 130 wherein the valve means includes means axially moveable forward through the combining area towards the gate for clearing the combined polymer flow stream from the combining area.
- 133. The co-injection nozzle means of claim 132 wherein the clearing means includes valve means adapted at its forward end to provide an area for accumulating polymer material prior to effecting the clearing action.
- 134. The co-injection nozzle means of claim 131 wherein the nozzle includes means axially moveable forward through the combining area towards the gate for clearing the combined polymer flow stream from the combining area.
- 135. The co-injection nozzle means of claim 134 wherein the clearing means includes valve means adapted at its forward end to provide an area for accumulating polymer material prior to effecting the clearing action.
- 136. The co-injection nozzle means of claim 130 wherein there is also included valve means adapted to be placed in a position in the combining area wherein it blocks and prevents the flow of polymer material through all of the orifices.
- 137. The co-injection nozzle means of claim 130 wherein the combining area of the central channel has a uniform cross-sectional area.
- 138. Co-injection nozzle means for a multi-polymer injection blow molding machine for co-injecting at least three streams of melt materials to form a multi-layer article therefrom, which comprises,
- a co-injection nozzle having
- an axially extending cylindrical central channel,
- a gate in communication with the central channel,
- at least three polymer stream passageways each having a fixed orifice, there being two of said at least three orifices close to the gate, the first of said orifices being proximate the gate, the second of said orifices being adjacent the first orifice, and the third orifice being remote from said gate, each of said first and second passageways being tapered and their orifices being narrow, annular and defined by a leading lip and a trailing lip, said central channel having a combining area which is a cylindrical portion defined at either end by the forward lip of the first orifice and the trailing lip of the annular orifice most remote from the gate in which area all polymer streams combine into a combined flow stream for injection from the nozzle, and wherein said combining area has a volume no greater than about 5% of the volume of the injection cavity into which the combined polymer flow stream is injected from the nozzle.
- 139. The co-injection nozzle means of claim 138 wherein the valve means includes means axially moveable forward through the combining area towards the gate for clearing the combined polymer flow stream from the combining area.
- 140. The co-injection nozzle means of claim 139 wherein the clearing means includes valve means adapted at its forward end to provide an area for accumulating polymer material prior to effecting the clearing action.
- 141. The co-injection nozzle means of claim 138 wherein there is also included valve means adapted to be placed in a position in the combining area wherein all orifices are blocked.
- 142. The co-injection nozzle means of claim 138 wherein the combining area of the central channel has a uniform cross-sectional area.
- 143. Apparatus for an injection molding machine for injection a multi-layer plastics article having an outer layer, an inside layer and an internal layer therebetween, which comprises,
- a co-injection nozzle having
- a central channel with an open end,
- a gate at the open end,
- three polymeric material melt flow stream passageways each passageway having an orifice in communication with the central channel, the first of said orifices being proximate the gate for the stream for forming the outside layer, the second of said orifices being adjacent the first orifice for the stream for forming the internal layer, and the third of said orifices for the stream for forming the inside layer being more remote from the gate than said other orifices, wherein second passageway orifice is annular,
- a channel for each melt flow stream, one in communication with one pasageway and its orifice for forming the other layer of the article, and the other in communication with the other passageway and its orifice for polymer material for forming the inside layer of the article,
- a common moving means in communication with each passageway for moving the polymeric material melt flow streams for forming the outer and inside layers through their channels, passageways and orifices, and
- valve means mounted in the central channel and operative to block and unblock the orifice for the polymer material for forming the internal layer and to block said orifice while the orifices for the outside and for the inside layers are not blocked.
- 144. The apparatus of claim 143 wherein the machine is a multi-co-injection nozzle injection molding machine and there are a plurality of said co-injection nozzles for injecting plurality of multi-layer plastics articles and valve means mounted in and operated in the central channel of each co-injection nozzle.
- 145. The apparatus of claim 143 or 144 wherein the passageway for the polymeric material melt flow stream for forming the internal layer has flow directing means associated therewith for balancing the flow of said stream which forms said internal layer.
- 146. Apparatus for a multi-layer injection molding machine, which comprises
- a co-injection nozzle having
- a gate at one end,
- a central channel in communication with the gate,
- at least three polymeric melt material flow stream passageways in communication with the central channel, each passageway having associated orifice whereat the passageway communicates with the central channel, wherein the first of said orifices is more proximate the gate than said other orifices, the third of said orifices is operative at a position more remote from the gate than said first orifice, and the second of said orifices is located between the first and third orifices, and
- valve means movable in the co-injection nozzle central channel, operative with respect to said second orifice and adapted to block and unblock and prevent and allow the flow of polymeric melt material through the said orifice into said central channel, said valve means being adapted to block said second orifice while it does not block the first and third orifices.
- 147. The apparatus of claim 146 wherein the valve means includes a sleeve having an internal axial material flow stream passageway communicating with the nozzle central channel having a front end facing the gate and a back end adapted to communicate with the third passageway behind the sleeve.
- 148. The apparatus of claim 146 or 147 wherein the nozzle passageway for the melt material stream which is to form the internal layer includes material flow directing means for balancing the flow that stream around the nozzle passageway and its orifice.
- 149. The co-injection nozzle means of any one of claims 46, 47, 65, 75, 89, 102, 116, 130, or 138, wherein the machine is a multi-co-injection nozzle injection molding machine and there is a plurality of said co-injection nozzles.
Parent Case Info
This is a continuation of application Ser. No. 484,707, filed Apr. 13, 1983 now U.S. Pat. No. 4,712,990.
US Referenced Citations (12)
Continuations (1)
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Number |
Date |
Country |
Parent |
484707 |
Apr 1983 |
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