Plastic article or earthenware shaping or treating: apparatus – Female mold and charger to supply fluent stock under...
Reexamination Certificate
2000-05-09
2001-07-10
Nguyen, Nam (Department: 1722)
Plastic article or earthenware shaping or treating: apparatus
Female mold and charger to supply fluent stock under...
C264S316000, C264S328160, C425S547000, C425S552000, C425SDIG001
Reexamination Certificate
active
06257867
ABSTRACT:
TECHNICAL FIELD
The present invention relates to the manufacture of composite articles, that is, articles typically comprising a fiber reinforcement lattice within a cured resin matrix. More specifically, the invention relates to matched-tool molding apparatus suitable for injection molding composite articles at controlled temperatures with readily replaceable, low-cost tool surfaces.
BACKGROUND OF THE INVENTION
Reaction injection molding and resin transfer molding are processes wherein dry fiber reinforcement plys/preforms are loaded in a mold cavity whose surfaces define the ultimate configuration of the article to be fabricated, whereupon a flowable resin is injected under pressure into the mold cavity (mold plenum) thereby to saturate/wet the fiber reinforcement plys/preforms. After the resinated preforms are cured in the mold plenum, the finished article is removed from the mold.
The prior art teaches injection molding apparatus which consist of a pair of complementary or “matched” tools which provide these molding surfaces, which each tool being carefully machined, for example, from a rigid metal which is otherwise relatively nonreactive with respect to the resin-to be used in conjunction therewith. Such matched metal molds are expensive to fabricate and are necessarily limited to the manufacture of a single article of a given design. Stated another way, even slight changes to the desired configuration of the article to be fabricated may necessitate the machining of an entirely new replacement tool.
Additionally, such known metal tools typically have substantial thermal mass which becomes increasingly problematic as the mold temperature deviates from the desired process temperatures. In response, such tools are often provided with an integral system of internal heating and/or cooling tubes or passages through which an externally supplied heating/cooling fluid may be circulated. However, in accordance with these prior art designs, the heating/cooling passages are positioned relative to the tool surfaces so as to leave a minimum spacing of perhaps 2 inches (5 cm) therebetween to ensure that the resulting article will be free of hot and cold lines or bands which might otherwise be generated in the article as a result of disparate heating/cooling rates during resin cure. This minimum spacing, in turn, inherently limits the ability of these prior art tools to accurately control temperature during the injection molding process, again, particularly where such processes are exothermic. And temperature control of the mold plenum becomes further problematic where variable-thickness articles are to be fabricated, given that the thicker portions of the article may well polymerize earlier, and will likely is reach higher temperatures, than the thinner portions thereof.
Still further, where matched metal tools are utilized in processes employing reduced cycle times, the sizable thermal mass of such metal tools can often generate peak temperatures in the range of about 375° F. to about 400° F., resulting in “dry spots” which will likely render the finished article unusable.
Accordingly, such matched metal tools may have to be periodically idled for sufficient time to permit the mold to cool to an acceptable operating temperature, thereby substantially increasing the cost of article fabrication using such tools. Finally, at the other end of the temperature scale, reduced mold temperatures are known to increase the rate of styrene buildup when used with resins employing styrene monomers, thereby precipitating greater frequency of styrene build-up removal and associated labor costs and equipment down-time, with an associated increase in process cost.
In an attempt to provide increased temperature control while facilitating removal of the finished article from the molding apparatus, the prior art teaches a modified molding apparatus wherein one of the mold surfaces is defined by a flexible member formed, for example, of rubber. The other mold surface is still defined by a rigid, thermally-conductive metal tool which may be backed by a pressurized fluid such as steam whereby curing heat is transferred to the mold cavity for endothermic molding operations. Unfortunately, for such endothermic processes, heating but one side of the mold cavity may limit flexibility as to surface finish and other characteristics of the resulting article and, further; limit the degree to which resin cure may be accelerated. Moreover, where such molding apparatus are used in exothermic processes, the resulting heat accelerates deterioration of the flexible mold surface, thereby preventing long-term use of the tool. Moreover, such molding apparatus often requires evacuation of the mold plenum prior to injection of the resin therein, thereby rendering use and maintenance of such molding apparatus more complex, and processes employing such apparatus more time intensive and costly.
What is needed, then, is a matched-tool injection molding apparatus featuring replaceable mold surfaces which are easier and less costly to fabricate than known rigid or flexible tools while further offering increased temperature control during both endothermic and exothermic processes thereby to provide articles of improved quality at lower cycle times.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide an injection molding apparatus featuring reusable low-cost molding surfaces.
It is another object of the present invention to provide an injection molding apparatus featuring enhanced temperature control of its molding surfaces, whereby improved control of the mold process and attendant article characteristics can be achieved.
Under the present invention, an injection molding apparatus includes a pair of mold sections, wherein each mold section itself includes a rigid housing and a semi-rigid membrane removably mounted to the housing so as to define a fluid-tight chamber therein. The membrane of each mold section, which, in turn, defines its molding surface, is preferably formed of an inexpensive composite material such fiberglass or reinforced nylon, or other suitable material; and, in accordance with the present invention, different membrane materials and/or characteristics may be selected for the respective membranes of each mold section. When the two mold sections are assembled with their respective molding surfaces in opposition to one another, a molding plenum is defined within which to fabricate the desired article. Thus, under the present invention, design changes to the article are readily accommodated through alteration or replacement of the low-cost membrane(s). Stated another way, under the present invention, a given mold section housing may be outfitted with a wide variety of relatively inexpensive composite membranes useful in the production of composite articles of different shapes, sizes-and characteristics, thereby greatly reducing tooling costs as compared to the prior art.
In accordance with the present invention, a noncompressible fluid is disposed within and fills the chamber of each mold section, whereby its respective membrane is supported so as to ensure proper dimensioning of the finished article while permitting slight dimensional flexing during resin injection thereby to evenly distribute any injection pressure loading of the membrane across its entire surface. The latter feature may prove especially advantageous where a spike in injection pressure is encountered during the resin injection step. As a further advantage, such slight dimensional flexing of the membrane during resin injection is believed to improve or enhance the flow of resin through the mold plenum. An expansion chamber in fluid communication with the chamber of one or both mold sections serves to accommodate thermal expansion of the membrane-backing fluid prior to injection of resin into the mold plenum, and subsequent to cure of the finished article, with a valve operating to isolate the chamber from the expansion chamber during resin injection and cure.
And, in accordance with another feature of the present invention,
Kirila, II Gene E.
McCollum Robert P.
Leyson Joseph
Merchant & Gould P.C.
Nguyen Nam
VEC Technology Inc.
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