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Apparatus for feeding glass batch materials into a glass melting furnace 원문보기

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • C03B-003/00
출원번호 US-0907014 (1978-05-17)
우선권정보 JP-0059432 (1977-05-24); JP-0069429 (1977-06-14)
발명자 / 주소
  • Takahashi Shiro (Yokohama JPX) Tsuchimoto Yoshihiro (Funabashi JPX)
출원인 / 주소
  • Asahi Glass Company, Limited (Tokyo JPX 03)
인용정보 피인용 횟수 : 55  인용 특허 : 0

초록

A blanket feeder type glass batch feeding apparatus for preventing the leakage of the atmosphere in a glass melting furnace is provided. The glass batch feeding apparatus comprises a sealing case for surrounding a reciprocally movable batch feeding trough and extending to a batch feeding opening of

대표청구항

In a blanket feeder type apparatus for feeding glass batch materials into a glass melting furnace including a batch feeding opening, said apparatus comprising a hopper for receiving glass batch materials; a batch feeding trough disposed near an outlet of the lower part of the hopper to receive the g

이 특허를 인용한 특허 (55)

  1. Huber, Aaron Morgan; Martin, Marlon Keith; Mobley, John Euford, Apparatus, systems and methods for conditioning molten glass.
  2. Huber, Aaron Morgan, Apparatus, systems and methods for processing molten glass.
  3. Charbonneau, Mark William; McHugh, Kevin Patrick, Apparatus, systems and methods for reducing foaming downstream of a submerged combustion melter producing molten glass.
  4. Huber, Aaron Morgan, Apparatus, systems, and methods for pre-heating feedstock to a melter using melter exhaust.
  5. Stillwell, Nicholas; Rodlsberger, Alfred, Applicator device for plastic moulding machine.
  6. Macleod, Kenneth D.; Lewis, David L.; Ponzi, Robert, Batch charger cooling.
  7. Macleod, Kenneth D.; Lewis, David L.; Ponzi, Robert, Batch charger cooling.
  8. Trunzo Angelo J. (Washington PA), Batch charger for glass furnace.
  9. Villeroy De Galhau, Gregoire; Lefrere, Yannick; Rayer, Mathieu, Batch-charging machine with removable head for submerged batch-charging.
  10. Charbonneau, Mark William, Burner apparatus, submerged combustion melters including the burner, and methods of use.
  11. Charbonneau, Mark William, Burner apparatus, submerged combustion melters including the burner, and methods of use.
  12. Charbonneau, Mark William, Burner apparatus, submerged combustion melters including the burner, and methods of use.
  13. Luka, Michael William; Baker, John Wayne, Burner panels including dry-tip burners, submerged combustion melters, and methods.
  14. Huber, Aaron Morgan, Effective discharge of exhaust from submerged combustion melters and methods.
  15. Wang, Zhongming; Weil, Scott; Gullinkala, Tilak; Vempati, Udaya; Kadur, Shivakumar S., Glass furnace.
  16. Wang, Zhongming; Weil, Scott; Gullinkala, Tilak; Vempati, Udaya; Kadur, Shivakumar S., Glass furnace.
  17. Wang, Zhongming; Weil, Scott; Gullinkala, Tilak; Vempati, Udaya; Kadur, Shivakumar S., Glass furnace with bottom material feed.
  18. Wittler, Fritz; Fraikin, Michael, Machine for charging a glass melting tank furnace.
  19. Charbonneau, Mark William, Methods and apparatus for recycling glass products using submerged combustion.
  20. Shock, Jeffrey M; Charbonneau, Mark William, Methods and systems for controlling bubble size and bubble decay rate in foamed glass produced by a submerged combustion melter.
  21. Shock, Jeffrey M; Charbonneau, Mark William, Methods and systems for controlling bubble size and bubble decay rate in foamed glass produced by a submerged combustion melter.
  22. Charbonneau, Mark William; Huber, Aaron Morgan, Methods and systems for destabilizing foam in equipment downstream of a submerged combustion melter.
  23. Charbonneau, Mark William; Huber, Aaron Morgan, Methods and systems for destabilizing foam in equipment downstream of a submerged combustion melter.
  24. Charbonneau, Mark William; Huber, Aaron Morgan, Methods and systems for destabilizing foam in equipment downstream of a submerged combustion melter.
  25. Shock, Jeffrey M; Huber, Aaron Morgan, Methods and systems for making well-fined glass using submerged combustion.
  26. Shock, Jeffrey M; Huber, Aaron Morgan, Methods and systems for making well-fined glass using submerged combustion.
  27. McCann, Jonathan; Shock, Jeffrey M; Nesti, Bryan Keith; Mobley, John Euford, Methods and systems for monitoring glass and/or foam density as a function of vertical position within a vessel.
  28. Huber, Aaron Morgan; Faulkinbury, Albert Patrick, Methods of melting feedstock using a submerged combustion melter.
  29. Charbonneau, Mark William; Nesti, Bryan Keith, Methods of using a submerged combustion melter to produce glass products.
  30. Charbonneau, Mark William; Nesti, Bryan Keith, Methods of using a submerged combustion melter to produce glass products.
  31. Madeni, Juan Carlos; Baker, John Wayne, Post-manufacturing processes for submerged combustion burner.
  32. Charbonneau, Mark William; McHugh, Kevin Patrick, Process of using a submerged combustion melter to produce hollow glass fiber or solid glass fiber having entrained bubbles, and burners and systems to make such fibers.
  33. Charbonneau, Mark William; McHugh, Kevin Patrick, Process of using a submerged combustion melter to produce hollow glass fiber or solid glass fiber having entrained bubbles, and burners and systems to make such fibers.
  34. Charbonneau, Mark William; McHugh, Kevin Patrick, Process of using a submerged combustion melter to produce hollow glass fiber or solid glass fiber having entrained bubbles, and burners and systems to make such fibers.
  35. Baker, John Wayne; Charbonneau, Mark William, Processing organics and inorganics in a submerged combustion melter.
  36. De La Fouchardiere, Rene; Gaudenzi, Frederic; Paseri, Jean Denis; Beauvent, Guy, Slide-type extractor.
  37. Hegde, Subray R, Submerged combustion burners.
  38. Cai, Yifang; Huber, Aaron Morgan, Submerged combustion burners and melters, and methods of use.
  39. Hegde, Subray R; Chalasani, Narayana Rao, Submerged combustion burners and melters, and methods of use.
  40. Baker, John Wayne; Huber, Aaron Morgan, Submerged combustion burners, submerged combustion glass melters including the burners, and methods of use.
  41. Huber, Aaron Morgan; Martin, Marlon Keith, Submerged combustion glass manufacturing system and method.
  42. Huber, Aaron Morgan; Martin, Marlon Keith, Submerged combustion glass manufacturing system and method.
  43. Huber, Aaron Morgan; Martin, Marlon Keith, Submerged combustion glass manufacturing system and method.
  44. Baker, John Wayne, Submerged combustion glass melting systems and methods of use.
  45. Faulkinbury, Albert Patrick; Huber, Aaron Morgan, Submerged combustion melters and methods of feeding particulate material into such melters.
  46. Charbonneau, Mark William; McHugh, Kevin Patrick; Huber, Aaron Morgan, Submerged combustion melters having an extended treatment zone and methods of producing molten glass.
  47. Faulkinbury, Albert Patrick, Submerged combustion melters, wall structures or panels of same, and methods of using same.
  48. Shock, Jeffrey M.; McCann, Jonathan, System for producing molten glasses from glass batches using turbulent submerged combustion melting.
  49. Charbonneau, Mark William; Huber, Aaron Morgan; Shock, Jeffrey M.; Borders, Harley Allen, Systems and methods for glass manufacturing.
  50. Charbonneau, Mark William; Huber, Aaron Morgan; Shock, Jeffrey M; Borders, Harley Allen, Systems and methods for glass manufacturing.
  51. Shock, Jeffrey M.; Huber, Aaron Morgan; Swales, Timothy G., Systems and methods for making foamed glass using submerged combustion.
  52. Shock, Jeffrey M; Huber, Aaron Morgan; Swales, Timothy G, Systems and methods for making foamed glass using submerged combustion.
  53. Shock, Jeffrey M; Huber, Aaron Morgan; Swales, Timothy G, Systems and methods for making foamed glass using submerged combustion.
  54. Baker, John Wayne; Charbonneau, Mark William, Systems and methods for mechanically binding loose scrap.
  55. McCann, Jonathan; Shock, Jeffrey M; Nesti, Bryan Keith; Mobley, John Euford, Systems for monitoring glass and/or glass foam density as a function of vertical position within a vessel.
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