IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0913800
(2010-10-28)
|
등록번호 |
US-8167609
(2012-05-01)
|
발명자
/ 주소 |
- Belzile, Manon Danielle
- MacLeod, Darrin
|
출원인 / 주소 |
- Husky Injection Molding Systems Ltd.
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
4 |
초록
▼
A mold-tool system (100), comprising: a melt splitting device (102) being configured to interact with a melt distribution device (105), the melt splitting device (102) having: a single inlet (106); multiple outlets (108) being set apart from the single inlet (106), the multiple outlets (108) being c
A mold-tool system (100), comprising: a melt splitting device (102) being configured to interact with a melt distribution device (105), the melt splitting device (102) having: a single inlet (106); multiple outlets (108) being set apart from the single inlet (106), the multiple outlets (108) being configured for fluid communication with the melt distribution device (105); and uninterrupted melt channels (110) extending from the single inlet (106) and the multiple outlets (108).
대표청구항
▼
1. A mold-tool system (100), comprising: a melt splitting device (102), including: an upper melt splitting device (122), anda plurality of lower melt splitting devices (124);a manifold assembly (104), including: a cross manifold assembly (142), anda plurality of main manifold assemblies (144),wherei
1. A mold-tool system (100), comprising: a melt splitting device (102), including: an upper melt splitting device (122), anda plurality of lower melt splitting devices (124);a manifold assembly (104), including: a cross manifold assembly (142), anda plurality of main manifold assemblies (144),wherein:the upper melt splitting device (122) is configured for connection with a melt preparation device, the upper melt splitting device (122) is connected with the cross manifold assembly (142), andthe plurality of lower melt splitting devices (124) connect the cross manifold assembly (142) with a respective one of the plurality of main manifold assemblies (144). 2. The mold-tool system (100) of claim 1, wherein: the upper melt splitting device (122) and the plurality of lower melt splitting devices (124) include:a single inlet (106),multiple outlets (108) that are set apart from the single inlet (106), anduninterrupted melt channels (110) extending from the single inlet (106) and the multiple outlets (108). 3. The mold-tool system (100) of claim 1, wherein: the upper melt splitting device (122) and the plurality of lower melt splitting devices (124) include: a material that has a thermal conductivity that is different from the thermal conductivity of the material included in the manifold assembly (104). 4. The mold-tool system (100) of claim 1, wherein: the upper melt splitting device (122) and the plurality of lower melt splitting devices (124) include: a material that has a fatigue strength that is different than the fatigue strength of the material included in the manifold assembly (104). 5. The mold-tool system (100) of claim 2, wherein: the uninterrupted melt channels (110) radiate axially outwardly from a direction that is perpendicular to a central axis extending through the single inlet (106). 6. The mold-tool system (100) of claim 2, wherein: the uninterrupted melt channels (110) radiate symmetrically axially outwardly along an accurate angle relative to a central axis of the single inlet (106). 7. The mold-tool system (100) of claim 1, wherein: the melt splitting device (102) includes a six way split. 8. The mold-tool system (100) of claim 1, wherein: the melt splitting device (102) includes a 12 way split. 9. The mold-tool system (100) of claim 2, wherein: the upper melt splitting device (122) and the plurality of lower melt splitting devices (124) include: a melt splitting device body (202), and a melt splitting zone (204) is defined by the melt splitting device body (202), the melt splitting zone (204) is cone-shaped, with: (i) an apex of the melt splitting device body (202) aligned at the single inlet (106), and (ii) a base of the melt splitting device body (202) aligned or directed at the multiple outlets (108), andthe uninterrupted melt channels (110) extend inwardly toward the melt splitting zone (204). 10. The mold-tool system (100) of claim 1, wherein: the upper melt splitting device (122) and the plurality of lower melt splitting devices (124) include: a melt splitting device body (202), and a melt splitting zone (204) is defined by the melt splitting device body (202),an alignment dowel (502) is defined in the melt splitting device body (202), andthe alignment dowel (502) is configured to align the melt splitting device body (202) with the manifold assembly (104). 11. The mold-tool system (100) of claim 2, wherein: the upper melt splitting device (122) and the plurality of lower melt splitting devices (124) include: a melt splitting device body (202), and a melt splitting zone (204) is defined by the melt splitting device body (202),the melt splitting device body (202) includes: an inlet body (602) that defines the single inlet (106), andan outlet body (604) that defines the uninterrupted melt channels (110) and the multiple outlets (108); anda connector (650) for connecting the inlet body (602) with the outlet body (604), and the inlet body (602) and the outlet body (604) are configured to be securely sealably connectable together. 12. The mold-tool system (100) of claim 2, wherein: the upper melt splitting device (122) and the plurality of lower melt splitting devices (124) include: an inlet body (702), the inlet body (702) may define the single inlet (106);an outlet body (704), the outlet body (704) defines the uninterrupted melt channels (110) and the multiple outlets (108); anda connector (650) connects the inlet body (702) with the outlet body (704). 13. The mold-tool system (100) of claim 2, wherein: the cross manifold assembly (142) includes: a cross manifold body (800) that defines: a manifold inlet (806),a manifold outlet (808), anduninterrupted manifold channels (810) being similar to the uninterrupted melt channels (110). 14. The mold-tool system (100) of claim 1, wherein: the plurality of main manifold assemblies (144) include: a main manifold body (900),a manifold inlet (906),a manifold outlet (908), anduninterrupted melt channels (910) being similar to the uninterrupted melt channels (110).
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