High-Stress Seals for Injection Molding Machines

Abstract

A high-stress seal for injection molding machines, intended for sealing the gap between the injector nozzle and the injector rail of the tool. The seal in the ingate area is designed in a dome shape with an opening in the top of the dome for flux to enter. Correspondingly, the injector nozzles and the opposing wall of the injector rail of the tool have a dome-shaped design and are spatially adapted to the seal. This construction provides the seal with very dense, firm placement when the injector is pressed into the tool recess, and flux under high pressure cannot dislodge it.

Description

DESCRIPTION OF THE DRAWINGS

The above, as well as other, advantages of the present invention will become readily apparent to those skilled in the art from the following detailed description of a preferred embodiment when considered in the light of the accompanying drawings in which:

FIG. 1 illustrates the transition points between a manifold and a nozzle with a gasket involved in a first preferred embodiment in accordance with the present invention;

FIG. 2 is a fragmentary enlarged detail view of FIG. 1 illustrating a seal of the preferred embodiment in accordance with the present invention;

FIG. 3 is a fragmentary enlarged detail interior view of the gate area of a nozzle of FIG. 1 that opens to the mold cavity illustrating an annular gap seal in accordance with the present invention located between the nozzle and the tool; and

FIG. 4 is a fragmentary enlarged detail interior view of FIG. 3 of a second preferred embodiment in accordance with the present invention illustrating a small, modified seal.

Claims

1. A high-stress seal for an injection molding melt delivery system including a nozzle with nozzle cap connected to a manifold through which plastic resin flows through a flow channel and a tool having an injection side portion about the nozzle and nozzle cap and an ejection side portion, the seal comprising: an outer and inner surface area, wherein said inner surface area is shaped according to the outer surface area of the nozzle tip of the nozzle and said outer surface area is shaped according to the inner surface area of the injection side portion of the tool; andan opening in said seal extending between the outer and inner surface areas allowing plastic resin to flow through the nozzle from the injection side portion of the tool to the ejection side portion of the tool, wherein said seal is formed to fit within a space between the nozzle tip and the injection side portion of the tool, and in which the nozzle tip and the opposing wall of the injection side portion of the tool are spatially adapted to said similarly designed seal;wherein said seal has such a form that when placed within the space between the nozzle tip and the injection side portion of the tool, the contact pressure of the seal against the sealing surface is strengthened by the pressure of the molten plastic resin.

2. The high-stress seal according to claim 1, wherein said seal is dome-shaped having a base and a top with said opening in said top of said dome.

3. The high-stress seal according to claim 2, wherein said dome-shaped seal is conical.

4. The high-stress seal according to claim 1, wherein said seal is formed of high-temperature sealant material.

5. The high-stress seal according to claim 1, wherein said seal has such a form that when placed within the space between the nozzle tip and the injection side portion of the tool, said seal can not be measurably pushed out of place or moved from the space.

6. The high-stress seal according to claim 3, wherein said dome-shaped seal includes a hollow-cylinder seal segment extending along the base of the corresponding dome-shaped nozzle that when mounted in position, said hollow-cylinder seal segment lies between the outer wall of the nozzle tip and the nozzle cap when the nozzle cap is screwed to the nozzle.

7. The high-stress seal according to claim 6, wherein said dome-shaped seal further comprises an outwardly extending ring-shaped sealing flange which extends from said base of said dome-shaped seal that when mounted in position, said sealing flange rests between the forward face of the nozzle cap and a corresponding contact area of the injection side portion of the tool.

8. A high-stress seal for use in an injection molding melt delivery system comprising: an annular gap seal for securing a gap between two coplanar surfaces that surround a flow channel for molten plastic resin, wherein said seal is formed such that said seal seats within the space between the two opposing parts to be sealed and said seal is strengthened and cannot be measurably pushed out of place or moved from said gap when contact pressure of the molten plastic resin occurs against the sealing surface of said seal.

9. The high-stress seal according to claim 8, said seal further comprising an annular ring having an inner diameter along the flow channel for the molten plastic resin and a groove extending about said inner diameter exposed to the flow channel.

10. The high-stress seal according to claim 9, wherein said groove has a triangular profile having tapered sides converging into a rounded bottom.

11. The high-stress seal according to claim 9, wherein said annular seal ring is seated within a groove in one of the two co-planar surfaces such that the height of said seated seal in an unstressed state is greater than the depth of the co-planar surface groove.

12. The high-stress seal according to claim 11, wherein said height of said seated seal in said unstressed state is 10 percent greater than the depth of the co-planar surface groove.

13. The high-stress seal according to claim 8, wherein said seal is formed of high-temperature sealant material, including at least one of PTFE and VESPEL®.

14. The high-stress seal according to claim 8, wherein said seal can withstand pressures of up to 2500 bar.

15. The high-stress seal according to claim 8, wherein said seal is a conical dome-shaped having a base and a top with said opening in said top of said dome.

16. The high-stress seal according to claim 15, wherein said dome-shaped seal includes a hollow-cylinder seal segment extending along the base of the corresponding dome-shaped part that when mounted in position, said hollow-cylinder seal segment lies between the two opposing parts to be sealed where such opposing parts preferably are the outer wall of a nozzle tip and a nozzle cap when the nozzle cap is screwed to the nozzle.

17. The high-stress seal according to claim 16, wherein said dome-shaped seal further comprises an outwardly extending ring-shaped sealing flange which extends from said base of said dome-shaped seal that when mounted in position, said sealing flange rests between the forward face of the nozzle cap and a corresponding contact area of the injection side portion of the tool.

18. A high-stress seal for use in an injection molding melt delivery system comprising: an annular gap seal for securing a gap between two coplanar surfaces that surround a flow channel for molten plastic resin, wherein said seal is formed of high-temperature sealant material having a profile such that said seal fits within a space between the two opposing parts to be sealed and said seal is strengthened and can withstand pressures of up to 2500 bar and wherein said profiled seal cannot be measurably pushed out of place or moved from said gap when contact pressure of the molten plastic resin occurs against the sealing surface of said seal.

19. The high-stress seal according to claim 18, wherein said seal profile comprises: an annular ring having an inner diameter along the flow channel for the molten plastic resin and a groove extending about said inner diameter exposed to the flow channel, said groove having a triangular profile including tapered sides converging into a rounded bottom, andwherein said annular seal ring is seated within a groove in one of the two co-planar surfaces such that the height of said seated seal in an unstressed state is 10 percent greater than the depth of the co-planar surface groove.

20. The high-stress seal according to claim 18, wherein said seal profile comprises: a conical dome-shaped seat having a base and a top with said opening in said top of said dome and includes a hollow-cylinder seal segment extending along the base of the corresponding dome-shaped part that when mounted in position, said hollow-cylinder seal segment lies between the two opposing parts to be sealed where such opposing parts preferably are the outer wall of a nozzle tip and a nozzle cap when the nozzle cap is screwed to the nozzle, andwherein said dome-shaped seal further comprises an outwardly extending ring-shaped sealing flange which extends from said base of said dome-shaped seal that when mounted in position, said sealing flange rests between the forward face of the nozzle cap and a corresponding contact area of the injection side portion of the tool.