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An automated assist apparatus is provided in a system for forming a molded article from a composition comprised of a plurality of chopped mineral fibers and a binder applied to at least one portion of a perforated mold and initially held in place by a vacuum drawn through the perforations before und

An automated assist apparatus is provided in a system for forming a molded article from a composition comprised of a plurality of chopped mineral fibers and a binder applied to at least one portion of a perforated mold and initially held in place by a vacuum drawn through the perforations before undergoing a curing process. The assist apparatus includes at least one device for holding the composition applied to at least one portion of the perforated mold in place prior to and during the curing process and a motive device for automatically moving the holding device from a first retracted position away from the mold to a second position for holding the composition in place. The vacuum is released when the holding device is in the second position. The composition undergoes curing and the holding device is automatically moved to the first retracted position for removing the cured molded article.

대표청구항 ▼

An automated assist apparatus is provided in a system for forming a molded article from a composition comprised of a plurality of chopped mineral fibers and a binder applied to at least one portion of a perforated mold and initially held in place by a vacuum drawn through the perforations before und

An automated assist apparatus is provided in a system for forming a molded article from a composition comprised of a plurality of chopped mineral fibers and a binder applied to at least one portion of a perforated mold and initially held in place by a vacuum drawn through the perforations before undergoing a curing process. The assist apparatus includes at least one device for holding the composition applied to at least one portion of the perforated mold in place prior to and during the curing process and a motive device for automatically moving the holding device from a first retracted position away from the mold to a second position for holding the composition in place. The vacuum is released when the holding device is in the second position. The composition undergoes curing and the holding device is automatically moved to the first retracted position for removing the cured molded article. ound source comprising: a) forming an electrospinning jet stream of said conducting fluid; and b) electrically controlling the flow characteristics of said jet stream to provide a controlled pattern over a desired target area; and c) forming a polymer fiber from said jet stream. 10. A method according to claim 9, wherein said flow characteristics of said jet stream are electrically controlled by at least one electrode. 11. A method according to claim 9, wherein said flow characteristics of said jet stream are electrically controlled by at least one pair of electrostatic quadrupole lenses. 12. A method according to claim 11, wherein said flow characteristics of said jet stream are electrically controlled by a plurality of pairs of electrostatic quadropole lenses. 13. A method according to claim 12, wherein said flow characteristics of said jet stream are electrically controlled by using an alternating gradient technique. 14. A method according to claim 9, wherein said controlled pattern is provided by applying a waveform to the potential on at least one pair of electrostatic quadropole lenses. 15. A method for forming a controlled-dimension and controlled-morphology membrane by electrospinning a plurality of polymer fibers from a conducting fluid containing said polymer in the presence of an electric field established between a solution introduction device and a ground source, said method comprising: a) forming a plurality of electrospinniflg jet streams of said conducting fluid; b) independently controlling the flow characteristics of at least one of said jet streams; and c) forming a membrane. 16. A method according to claim 15, wherein said flow characteristics of at least one of said jet streams are controlled by at least one scanning electrode. 17. A method according to claim 15, wherein said flow characteristics of at least one or more of said jet streams are controlled by at least one pair of scanning electrodes. 18. A method according to claim 15, wherein said solution introduction device consists of a plurality of electrospinning spinnerets. 19. A method according to claim 18, wherein each spinneret produces an individual jet stream of said conducting fluid. 20. A method according to claim 19, wherein the flow characteristics of each individual jet stream is independently controlled. 21. A method according to claim 20, wherein each spinneret has at least one scanning electrode for electrically independently controlling the flow characteristics of each individual jet stream. 22. A method according to claim 21, wherein each spinneret has two pairs of scanning electrodes for electrically controlling the flow characterists of each individual jet stream. 23. A method according to claim 18, wherein at least two spinnerets deliver different conducting fluids. 24. A method according to claim 23, wherein said different conducting fluids refers to different concentrations of polymer, different polymers, different polymer blends, different additives and/or different solvents. 25. An electrospinning apparatus for forming a membrane, comprising: a conducting fluid introduction device for providing a quantity of conducting fluid containing a polymer, said conducting fluid introduction device comprising a plurality of electrospinning spinnerets for delivering said conducting fluid, said spinnerets being electrically charged at a first potential; a ground member positioned adjacent said spinnerets and electrically charged at a second potential different from said first potential, thereby establishing an electric field between said spinnerets and said ground member; a support member disposed between said spinnerets and said ground member and movable to receive conducting fluid from said spinnerets; and means for controlling the flow characteristics of conducting fluid from at least one spinneret independently from the flow of conducting fluid from another spinneret. 26. An electrospinning apparatus according to cl aim 25, wherein said means for independently controlling the flow characteristics comprises at least one electrode disposed adjacent each spinneret, each electrode being charged at a potential different from and separate from said first potential. 27. An electrospinning apparatus according to claim 26, wherein each spinneret has two pairs of scanning electrodes for electrically separately directing the flow characteristics of conducting fluid from said spinneret. 28. An electrospinning apparatus according to claim 26, further comprising a probe associated with at least one spinneret, said probe being disposed between said electrode and said ground member, said probe being electrically charged at a potential different from said spinneret and said electrode. 29. An electrospinning apparatus according to claim 25, wherein said means for independently controlling said flow characteristics comprises a means for individually electrically turning on and off a respective spinneret. 30. An electrospinning apparatus according to claim 29, wherein said means for individually electrically turning on and off a respective spinneret comprises at least one scanning electrode associated with each spinneret. 31. An electrospinning apparatus according to claim 25, wherein said means for independently controlling said flow characteristics comprises a means for applying an alternating gradient to said conducting fluid delivered from said spinnerets. 32. An electrospinning apparatus according to claim 31, wherein said means for applying said alternating gradient comprises a plurality of pairs of electrostatic quadropole lenses. 33. An electrospinning apparatus according to claim 25, wherein said apparatus further comprises a pump for supplying conducting fluid to said solution introduction device at a predetermined pressure. 34. An electrospinning apparatus according to claim 33, wherein said pump is adapted to control the supply rate of conductive fluid at a constant flow rate. 35. An electrospinning apparatus according to claim 33, wherein said pump is adapted to control the supply of conductive fluid at a constant pressure. 36. An electrospinning apparatus according to claim 25, wherein said apparatus comprises a pump system for supplying different conducting fluids to at least two individual spinnerets. 37. An electrospinning apparatus according to claim 25, wherein said solution introduction device comprises a slit-die defining said plurality of spinneret. 38. An electrospinning apparatus according to claim 37, wherein adjacent spinnemets are interconnected by slits. 39. An electrospinning apparatus according to claim 38, wherein said spinnerets are defining by openings in said slit-die and said slits interconnecting said spinnerets are of configurations smaller than said openings. 40. An electrospinning apparatus according to claim 37, further comprising a plurality of scanning electrodes disposed adjacent to each of said spinnerets. 41. An electrospinning apparatus according to claim 25, wherein said solution introduction device comprises a matrix defining said plurality of spinnerets, said spinnerets being disposed in said matrix in electrical isolation from each other. 42. An electrospinning apparatus according to claim 41, wherein at least two individual spinnerets are electrically charged to a different potential. 43. An electrospinning apparatus according to claim 41, further comprising a plurality of individual electrodes wherein at least one individual electrode is disposed adjacent to each individual spinneret. 44. An electrospinning apparatus according to claim 43, wherein at least two of said individual electrodes are electrically charged to a different potential. 45. In an electrospinning apparatus for forming a membrane by electrospinning a plurality of polymer fibers from a conducting fluid which contains a polymer in the presence of an electric field between a conducting fluid introduction device and a ground source, an improve