Minimum vestige nozzle assembly for plastics injection molding

US 5,804,228 A
Filed: 08/21/1996
Issued: 09/08/1998
Est. Priority Date: 08/21/1996
Status: Expired due to Fees

First Claim

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1. A nozzle assembly for injecting a plastic resin melt into a mold cavity through a gate, the nozzle assembly comprising:

a) a nozzle housing defining a hot runner passage therethrough for flowing a plastic resin melt, the hot runner passage having a longitudinal axis;

b) a nozzle tip section comprising an upper nozzle tip portion and a lower nozzle tip portion, the nozzle tip section defining an axial hot runner tip passage in flow communication with the hot runner passage for flowing the plastic resin melt, the nozzle tip section being freely slidably received within the hot runner passage along the longitudinal axis, such that the nozzle tip section being freely slidable along the longitudinal axis relative to the nozzle housing during injection of the plastic resin melt into the mold cavity; and

c) limiting means disposed on the lower nozzle tip section for restricting sliding movement of the nozzle tip section, and for restricting thermal expansion of the lower nozzle tip portion, in a direction toward the gate.

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Abstract

A hot tip nozzle assembly for injection molding plastic components comprises a nozzle housing defining a hot runner passage and a nozzle tip section which is received in the hot runner passage. The nozzle tip section defines a hot runner tip passage in flow communication with the hot runner passage. The nozzle tip section slides freely within the hot runner passage during injection molding. A stop is provided on the nozzle tip section to limit downward movement relative to the cavity gate and automatically position the nozzle tip relative to the injection gate of the mold. In addition, axial thermal expansion of the nozzle housing is not imparted to the nozzle tip section. The nozzle tip section also has a restricted length that can axially thermally expand. Accordingly, the position of the nozzle tip is only minutely affected by even larger temperature changes in the nozzle assembly. This controlled thermal expansion together with the sliding movement of the nozzle tip section relative to the nozzle housing maintains the nozzle tip at a substantially constant position during the injection molding operation and minimizes vestige formation in the molded components.

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21 Claims

1. A nozzle assembly for injecting a plastic resin melt into a mold cavity through a gate, the nozzle assembly comprising:
- a) a nozzle housing defining a hot runner passage therethrough for flowing a plastic resin melt, the hot runner passage having a longitudinal axis;
  
  b) a nozzle tip section comprising an upper nozzle tip portion and a lower nozzle tip portion, the nozzle tip section defining an axial hot runner tip passage in flow communication with the hot runner passage for flowing the plastic resin melt, the nozzle tip section being freely slidably received within the hot runner passage along the longitudinal axis, such that the nozzle tip section being freely slidable along the longitudinal axis relative to the nozzle housing during injection of the plastic resin melt into the mold cavity; and
  
  c) limiting means disposed on the lower nozzle tip section for restricting sliding movement of the nozzle tip section, and for restricting thermal expansion of the lower nozzle tip portion, in a direction toward the gate.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 2. The nozzle assembly of claim 1, wherein the nozzle housing comprises a hardened inner surface defining the hot runner passage, the inner surface having a lubricity effective to enhance sliding movement of the nozzle tip section relative to the nozzle housing.
  - 3. The nozzle assembly of claim 2, wherein the hardened inner surface is formed by a nitriding process.
  - 4. The nozzle assembly of claim 1, wherein the hot runner tip passage is straight.
  - 5. The nozzle assembly of claim 1, wherein the hot runner tip passage is spiral shaped.
  - 6. The nozzle assembly of claim 5, wherein the nozzle tip section comprises a spiral shaped tip member disposed in the hot runner tip passage.
  - 7. The nozzle assembly of claim 6, wherein the spiral shaped tip member is comprised of a material having high abrasion resistance to the plastic resin melt.
  - 8. The nozzle assembly of claim 1, wherein the upper nozzle tip portion comprises an outer wall formed of a material having a higher coefficient of thermal expansion than the material forming the nozzle housing such that a plastic resin melt seal is formed between the nozzle housing and the outer wall during injection molding.
  - 9. The nozzle assembly of claim 8, wherein the nozzle housing is comprised of steel and the outer wall of the upper nozzle tip portion is comprised of a beryllium-copper material.
  - 10. The nozzle assembly of claim 9, wherein the outer wall of the nozzle tip section is nickel plated.
  - 11. The nozzle assembly of claim 1, wherein the length of the lower nozzle tip portion subject to thermal expansion is defined by the portion that extends beneath or below the limiting means.
  - 12. The nozzle assembly of claim 1, wherein the hot runner passage comprises an upper portion having an upper diameter and a lower portion adjacent to the upper portion having a lower diameter greater than the upper diameter.
  - 13. The nozzle assembly of claim 12, wherein the nozzle tip section is received in the lower portion of the hot runner passage.

14. A nozzle assembly for injecting a plastic resin melt into a mold cavity through a gate, the nozzle assembly comprising:
- a) a nozzle housing defining a hot runner passage therethrough for flowing a plastic resin melt, the hot runner passage having a longitudinal axis; and
  
  a nozzle tip section including a nozzle tip and a hot runner tip passage in flow communication with the hot runner passage for flowing the plastic resin melt, the nozzle tip section being freely slidable relative to the nozzle housing in the hot runner passage along the longitudinal axis during injection of the plastic resin melt into the mold cavity such that axial thermal expansion of the nozzle housing is not imparted to the nozzle tip section, the nozzle tip section including limiting means for limiting axial sliding movement of the nozzle tip section relative to the nozzle housing and to the gate and for limiting the length of the nozzle tip section that can axially thermally expand during injection.
- View Dependent Claims (15, 16, 17, 18)
- - 15. The nozzle assembly of claim 14, wherein the length of the nozzle tip section that can axially thermally expand comprises a lower portion of the nozzle tip section extending upwardly from the nozzle tip to approximately an upper face of the limiting means.
  - 16. The nozzle assembly of claim 14, wherein the nozzle tip section comprises an outer wall formed of a material having a higher coefficient of thermal expansion than the material forming the nozzle housing such that a plastic resin melt seal is formed between the nozzle housing and the outer wall during injection molding.
  - 17. The nozzle assembly of claim 16, wherein the nozzle housing comprises an inner surface layer defining the hot runner passage, the nozzle tip section comprises an outer layer, the inner surface layer and the outer layer having a lubricity effective to enhance sliding movement of the nozzle tip section relative to the nozzle housing.
  - 18. The nozzle assembly of claim 14, wherein the hot runner tip passage is spiral shaped.

19. A nozzle assembly for injecting a plastic resin melt into a mold cavity through a gate, the nozzle assembly comprising:
- a) a nozzle housing defining a hot runner passage therethrough for flowing a plastic resin melt, the hot runner passage having a longitudinal axis, the nozzle housing being formed of a first material having a first coefficient of thermal expansion; and
  
  a nozzle tip section including a nozzle tip, the nozzle tip section being freely slidably received in the hot runner passage along the longitudinal axis, the nozzle tip section defining a hot runner tip passage in flow communication with the hot runner passage for flowing the plastic resin melt, the nozzle tip section including a portion formed of a second material having a second coefficient of thermal expansion greater than the first coefficient of thermal expansion such that a plastic resin melt seal is formed between the nozzle tip section and the nozzle housing during injection molding, the nozzle tip section including limiting means for limiting sliding movement of the nozzle tip section along the longitudinal axis relative to the nozzle housing and to the gate and for limiting axial thermal expansion of the nozzle tip section to a lower portion of nozzle tip section including the nozzle tip, during infection of the plastic resin melt into the mold cavity.

20. A nozzle assembly for injecting a melt into a mold cavity through a gate, the nozzle assembly comprising:
- a) a nozzle housing including a hot runner passage therethrough for flowing a melt, the hot runner passage having a longitudinal axis;
  
  b) a nozzle tip section including an outer surface, an axial hot runner tip passage in flow communication with the hot runner passage for flowing the melt, and a tip, the nozzle tip section being freely axially slidable within the hot runner passage relative to the nozzle housing during injection of the melt into the mold cavity; and
  
  c) a nozzle tip locator support disposed on the outer surface of the nozzle tip section to (i) restrict axial sliding movement of the nozzle tip section in a direction toward the gate, and to (ii) restrict axial thermal expansion of the nozzle tip section in a direction toward the gate, such that the tip is automatically positioned relative to the gate during the injection of the melt.

21. A nozzle assembly for injecting a melt into a mold cavity through a gate, the nozzle assembly comprising:
- a) a nozzle housing including a hot runner passage therethrough for flowing a melt, the nozzle housing having a first coefficient of thermal expansion;
  
  b) a nozzle tip section non-fixedly received in the hot runner passage, the nozzle tip section including an outer surface, and a hot runner tip passage in flow communication with the hot runner passage for flowing the melt, the nozzle tip section including a portion having a second coefficient of thermal expansion greater than the first coefficient of thermal expansion such that a plastic resin melt seal is formed between the outer surface of the nozzle tip section and the nozzle housing during injection molding; and
  
  c) a titanium nozzle tip locator support positioned on the outer surface of the nozzle tip section such that during injection molding the nozzle tip locator support (i) limits freely sliding movement of the nozzle tip section along the longitudinal axis relative to the nozzle housing and to the gate, and (ii) limits thermal expansion of the nozzle tip section along the longitudinal axis to a lower portion of nozzle tip section.

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Current Assignee
Caco Pacific Corporation
Original Assignee
Caco Pacific Corporation
Inventors
Kofsman, Michael, Kroeger, Charles R., McGrevy, Alan N.
Primary Examiner(s)
HEITBRINK, TIMOTHY W

Application Number

US08/700,959
Time in Patent Office

748 Days
Field of Search

425/549, 425/568, 264/328.15
US Class Current

425/549
CPC Class Codes

B29C 2045/2796   Axially movable nozzles or ...

B29C 45/278   Nozzle tips B29C45/2735 tak...

B29C 45/30   Flow control means disposed...

Minimum vestige nozzle assembly for plastics injection molding

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

49 Citations

21 Claims

Specification

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Minimum vestige nozzle assembly for plastics injection molding

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

Subscription Required

Abstract

49 Citations

21 Claims

Specification

Subscription Required

Use Cases

Quick Links

Others