A co-injection nozzle pin (20) having downstream and upstream ends. The nozzle pin has therein a central bore (30) including an upstream end (32) adapted to communicate with a first material and a downstream end (34) exiting at the downstream end of the pin. The nozzle pin also has an outer surface
A co-injection nozzle pin (20) having downstream and upstream ends. The nozzle pin has therein a central bore (30) including an upstream end (32) adapted to communicate with a first material and a downstream end (34) exiting at the downstream end of the pin. The nozzle pin also has an outer surface (36) including a first portion (38) having a diameter D1, a second portion (40) having a diameter D2, wherein D2 is less than D1 and the first portion is rearward of the second portion. The pin further includes a channel (46) spiralling around the outer surface and being adapted to communicate with a second material. The channel (46) includes a first segment (52) defined in the first portion (38) of the outer surface and increasing in depth as it travels in a downstream direction and a second segment (54) defined in the second portion (40) of the outer surface and decreasing in depth as it travels in a downstream direction.
대표청구항▼
1. A method of co-injection molding comprising:providing a co-injection apparatus attached to a mold defining a mold cavity, the apparatus having a manifold including a nozzle housing having an inner surface defining a chamber, the mold cavity being in communication with the nozzle housing; housing
1. A method of co-injection molding comprising:providing a co-injection apparatus attached to a mold defining a mold cavity, the apparatus having a manifold including a nozzle housing having an inner surface defining a chamber, the mold cavity being in communication with the nozzle housing; housing a co-injection nozzle pin in the nozzle housing, the nozzle pin having downstream and upstream ends, the nozzle pin having therein a central bore including an upstream end adapted to communicate with a first material and a downstream end exiting at the downstream end of the pin, the nozzle pin having therein a spiraling channel in communication with a second material, the channel having a width, a first segment increasing in depth while traveling axially and circumferentially in a downstream direction and a second segment decreasing in depth while traveling axially and circumferentially in a downstream direction, the second segment being in communication with and downstream from the first segment and the width being substantially the same distance throughout the channel; controlling the flow of the second material through the channel and into the mold cavity, whereby substantially all of the second material entering the channel is forced to flow through the first segment until entering the second segment where at least a portion of the second material leaks out of the channel and along the second portion toward the forward end of the pin and into the mold cavity; and controlling the flow of the first material through the upstream end of the bore and out the downstream end of the bore and into the mold cavity. 2. The method of claim 1, whereby controlling the flow of the second material further comprises allowing at least a portion of the second material to continue to travel in the second segment of the channel toward a tapered end, whereupon reaching the tapered end it is forced to leak along the second portion of the pin.3. The method of claim 1, whereby controlling the flow of the second material into the mold cavity is effectuated by allowing at least a portion of the second material to flow through the second segment of the channel more than 360 degrees.4. The method of claim 3, whereby the second material leaks out of the channel and circumferentially around the pin, thereby preventing the formation of knit lines.5. The method of claim 1, whereby controlling the flow of the second material through the channel and into the mold cavity is effectuated by providing the outer surface of the nozzle pin with a first portion having a diameter D1 and a second portion having a diameter D2, wherein D2 is less than D1 such that when the pin is housed in the manifold, a passageway in which material can flow is formed between the inner surface of the nozzle housing and the second portion and the second segment.6. The method of claim 1, wherein the first portion, second portion and the inner surface of the housing defining the chamber are each substantially cylindrical.7. A co-injection nozzle pin comprising a central bore for receiving a first material, an outer surface, and a channel spiraling around the outer surface for receiving a second material, the channel having a first segment having an increasing depth as the first segment spirals in a downstream direction and the channel having a second segment having a decreasing depth as the second segment travels in a downstream direction.8. A co-injection nozzle pin having downstream and upstream ends, the nozzle pin having therein a central bore including an upstream end adapted to communicate with a first material and a downstream end exiting at the downstream end of the pin, the nozzle pin having an outer surface includinga first portion having a diameter D1; a second portion having a diameter D2wherein D2 is less than D1 and the first portion is rearward of the second portion; and a channel spiraling around the outer surface and being adapted to communicate with a second material, the channel including a first segment defined in the first portion of the outer surface and increasing in depth as the first segment spirals in a downstream direction; a second segment defined in the second portion of the outer surface and decreasing in depth as the second segment travels in a downstream direction, the second segment being in communication with and downstream from the first segment; and a width, the width being substantially the same distance throughout the channel. 9. The nozzle pin of claim 8, wherein the first segment of the channel travels axially and then axially and circumferentially around the nozzle pin.10. The nozzle pin of claim 8, wherein the second segment of the channel travels at least 360 degrees around the nozzle pin.11. The nozzle pin of claim 8, wherein the nozzle pin is adapted to be housed within a co-injection manifold such that a passageway in which the second material can leak is formed between the second portion of the outer surface and the manifold.12. The nozzle pin of claim 8, wherein second segment has a tapered exit end, and the distance between the tapered end and the forward end of the pin is at least three channel widths.13. The nozzle pin of claim 8, wherein the channel is defined by walls and the walls are pitched at least 20 degrees.
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이 특허에 인용된 특허 (31)
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