Molding process and apparatus

US 4,851,167 A
Filed: 09/14/1987
Issued: 07/25/1989
Est. Priority Date: 09/14/1987
Status: Expired due to Term

First Claim

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1. A flow molding process using radio-frequency dielectric heating of a foamable plastic material that is adapted to be expanded into a finished foam piece and that is disposed in a mold cavity, said process comprising the steps of, supporting a flexible and deformable diaphragm across the mold cavity, disposing a foamable plastic material in the mold cavity under the diaphragm, applying a pressure by controllably forcing a liquid into the mold cavity against the diaphragm on a surface thereof opposite to the material side of the diaphragm to cause the diaphragm to deflect against the material while permitting air to be removed from the cavity, applying radio-frequency heating to the mold cavity over a heating cycle, and concurrent with said heating releasing the pressure imposed by said liquid against the diaphragm,the applied pressure being released at a predetermined rate comparable to the rate of material expansion,said diaphragm, upon release, deflecting against a surface of the cavity.

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Abstract

A flow molding process and associated molding apparatus for making plastic parts employing a radio-frequency heating field. In a two-piece mold, a diaphragm is supported thereacross and over a foam plastic compound that is disposed in the bottom half of the mold. A fluid is adapted to be introduced into the mold against the diaphragm. The introduction of this fluid is controlled to initially inject the fluid into the mold to cause deflection of the diaphragm to thus expel substantially all air from the mold and to thereafter extract the fluid from the mold during the heating cycle as the material expands, the extraction causing a vacuum that assists in the plastic foam compound expansion.

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26 Claims

1. A flow molding process using radio-frequency dielectric heating of a foamable plastic material that is adapted to be expanded into a finished foam piece and that is disposed in a mold cavity, said process comprising the steps of, supporting a flexible and deformable diaphragm across the mold cavity, disposing a foamable plastic material in the mold cavity under the diaphragm, applying a pressure by controllably forcing a liquid into the mold cavity against the diaphragm on a surface thereof opposite to the material side of the diaphragm to cause the diaphragm to deflect against the material while permitting air to be removed from the cavity, applying radio-frequency heating to the mold cavity over a heating cycle, and concurrent with said heating releasing the pressure imposed by said liquid against the diaphragm,the applied pressure being released at a predetermined rate comparable to the rate of material expansion,said diaphragm, upon release, deflecting against a surface of the cavity.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 23, 24, 25, 26)
- - 2. A flow molding process as described in claim 1, wherein the pressure is released by extracting the fluid from the cavity to provide a vacuum in the cavity to assist in material expansion.
  - 3. A flow molding process as described in claim 2 wherein the finished foam piece configuration is determined by the cavity configuration less the diaphragm thickness.
  - 4. A flow molding process as described in claim 3 wherein the diaphragm has an intermediate position at the beginning, is deflected toward the material at initiation of the heating cycle, and has a final position against the top of the mold cavity at the end of the heating cycle.
  - 5. A flow molding process as described in claim 4 wherein in the final position of the diaphragm it is displaced away from the intermediate position in the opposite direction to the initial heating position.
  - 6. A flow molding process as described in claim 1 including partially closing the mold cavity during the application of pressure so as to enable air to be expelled from the mold cavity, and subsequently clamping the mold cavity closed to enable initiation of the heating cycle.
  - 7. A flow molding process as described in claim 6 wherein the pressure is released by extracting the fluid from the cavity to provide a vacuum in the cavity to assist in material expansion.
  - 9. Flow molding apparatus as described in claim 1 wherein said means for controlling the fluid includes means for moving the diaphragm in a controlled manner during the heating cycle and at a rate that matches the expansion rate of the material.
  - 10. Flow molding apparatus as described in claim 1 wherein said electrode means comprises a pair of oppositely disposed electrodes, one on either side of the mold cavity.
  - 11. Flow molding apparatus as described in claim 10 wherein said mold comprises a pair of separable mold pieces defining said mold cavity when closed.
  - 12. Flow molding apparatus as described in claim 11 wherein said mold cavity is non-planar for providing a non-planar finished piece.
  - 13. Flow molding apparatus as described in claim 12 wherein said means for establishing comprises an electromagnetic energy source connected to said electrodes.
  - 14. Flow molding apparatus as described in claim 13 wherein said mold pieces are comprised of silicone rubber.
  - 15. Flow molding apparatus as described in claim 14 wherein said diaphragm comprises flexible silicone rubber.
  - 16. Flow molding apparatus as described in claim 15 wherein said fluid means comprises silicone oil.
  - 17. Flow molding apparatus as described in claim 1 wherein said means for controlling the fluid means displacement includes means for controlling the diaphragm movement during the heating cycle to provide a vacuum in the mold to assist in material expansion.
  - 18. Flow molding apparatus as described in claim 9 wherein the dielectric constant of the mold, material, diaphragm and fluid means are collectively matched to provide uniform heating in the mold.
  - 23. A flow molding apparatus as described in claim 18 wherein the dielectric constant matching includes an additive for increasing the dielectric constant.
  - 24. A flow molding apparatus as described in claim 23 wherein the additive is one of calcium titanate, barium titanate, and titanium dioxide.
  - 25. A flow molding apparatus as described in claim 18 wherein the dielectric constant matching includes an additive for decreasing the dielectric constant.
  - 26. A flow molding apparatus as described in claim 25 whereas the additive comprises microspheres.

8. Flow molding apparatus comprising:
- a mold including electrode means and means defining a cavity for receiving a foamable plastic material that is to be finally formed into a finished foam piece,a deformable diaphragm disposed in the cavity,means for establishing an electromagnetic heating field across the mold, during a heating cycle, anda fluid means adapted to be introduced into said mold against said diaphragm,means for controlling the fluid means displacement to initially inject the fluid means into the mold to cause deflection of the diaphragm toward said material, prior to said heating cycle, and thereafter to extract the fluid means from the mold during said heating cycle as the material expands,said fluid means control adapted to position said diaphragm first in an intermediate position with the mold unclamped and with an air pocket between said material and diaphragm, next in a deflected position against the material to thus remove substantially all air from the mold cavity, and lastly in an opposite deflected position against a surface of the mold.

19. Flow molding apparatus comprising;
- a mold including electrode means and means defining a cavity for receiving a foamable plastic material that is to be finally formed into a finished foam piece,a deformable diaphragm disposed in the cavity,means for establishing an electromagnetic heating field across the mold, during a heating cycle, anda fluid means adapted to be introduced into said mold against said diaphragm,means for controlling the fluid means displacement to initially inject the fluid means into the mold to cause deflection of the diaphragm toward said material prior to said heating cycle, and thereafter to extract the fluid means from the mold during said heating cycle as the material expandssaid means for controlling the fluid means including fluid displacement means including a coupling port in the mold through which the fluid is injected into the mold and through which the fluid is extracted from the mold,said fluid displacement means causing the diaphragm to deflect and deform against the material to thus remove substantially all air from the mold cavity,the fluid displacement means is controlled during the heating cycle to extract the fluid causing a vacuum in the mold to assist in material expansion,the extraction rate of fluid is matched to the expansion rate of the material.
- View Dependent Claims (20, 21)
- - 20. Flow molding apparatus as described in claim 19 wherein said fluid displacement means includes a piston means.
  - 21. Flow molding apparatus as described in claim 19 wherein the finished foam piece has a size of the mold cavity less the diaphragm thickness.

22. Flow molding apparatus comprising a mold including electrode means and means defining a cavity for receiving a foamable plastic material that is to be finally formed into a finished foam piece,a deformable diaphragm disposed in the cavity,means for establishing an electromagnetic heating field across the mold, during a heating cycle, anda fluid means adapted to be introduced into said mold against said diaphragm,means for controlling the fluid means displacement to initially inject the fluid means into the mold to cause deflection of the diaphragm toward said material, and thereafter to extract the fluid means from the mold during said heating cycle as the material expands,said means for controlling the fluid means including fluid displacement means for injecting fluid into the mold over the diaphragm to cause the diaphragm to deflect and deform against the material to thus remove air from the cavity, and, during the heating cycle, to extract the fluid causing a vacuum in the mold to assist in material expansion.

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Current Assignee
Clint Incorporated 193 Oak Street Natick Massachusetts
Original Assignee
Clint, Inc.
Inventors
Marc, Michel
Primary Examiner(s)
Anderson, Philip

Application Number

US07/095,862
Time in Patent Office

680 Days
Field of Search

264/26, 264/314, 264/313, 264/45.2, 264/54, 264/25, 264/101, 264/40.5, 425/149, 425/388, 425/389, 425/817 R
US Class Current

264/421
CPC Class Codes

B29C 2035/0861   using radio frequency

B29C 33/08   for dielectric heating

B29C 33/10   with incorporated venting m...

B29C 33/405   Elastomers, e.g. rubber B29...

B29C 35/0805   using electromagnetic radia...

B29C 44/3403   Foaming under special condi...

B29C 44/587   with a membrane, e.g. for p...

Molding process and apparatus

First Claim

1 Assignment

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Accused Products

Abstract

80 Citations

26 Claims

Specification

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Molding process and apparatus

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

80 Citations

26 Claims

Specification

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Solutions

Use Cases

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