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Computer controllable multi-port valve

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • F16K-011/02
출원번호 US-0879214 (1978-02-21)
발명자 / 주소
  • Chivens Clyde C. (Laguna Beach CA) Whistler Wayne J. (Glendora CA)
출원인 / 주소
  • The Perkin-Elmer Corporation (Norwalk CT 02)
인용정보 피인용 횟수 : 106  인용 특허 : 0

초록

Developed primarily as a selector for use with a system for analyzing gases from any one of sixteen remote positions, the valve includes a platen containing on one surface sixteen circumferentially aligned input ports and one central output port. Rotatable adjacent the opposite surface of the platen

대표청구항

An electrically controllable multi-port fluid valve comprising: a platen having on its first surface a centrally positioned first port and a plurality of second ports equally spaced from said first port; a rotatable selector manifold positioned adjacent the second surface of said platen, said manifo

이 특허를 인용한 특허 (106)

  1. Zupanick, Joseph A.; Rial, Monty H., Accelerated production of gas from a subterranean zone.
  2. Zupanick,Joseph A., Accessing subterranean resources by formation collapse.
  3. Hauri, Philipp; Friedl, Markus; Schlegel, Andreas; Voser, Alexandre; Lehmann, Markus, Actively controlled valve and method for operating an actively controlled valve.
  4. Pratt,Christopher A.; Walter,Bruno H., Adjustable window liner.
  5. Robins David G. (Stockport GB2), Automatic sampling device.
  6. Joseph A. Zupanick, Cavity positioning tool and method.
  7. Zupanick,Joseph A., Cavity positioning tool and method.
  8. Joseph A. Zupanick, Cavity well positioning system and method.
  9. Pratt, Christopher A.; Seams, Douglas P., Cavity well system.
  10. Cormier, Sylvain, Chromatography-based monitoring and control of multiple process streams.
  11. Nowak, Franz Marcus, Control of rotary valve operation for reducing wear.
  12. Hennemann Thomas L. ; Brady Daniel F., Dispensing system with multi-port valve for distributing use dilution to a plurality of utilization points and position sensor for use thereon.
  13. Noordanus, Maximiliaan; Van Eijnatten, Eric Michaël Cornelis Maria, Distributor with a rotatable U-shaped connecting channel.
  14. Noordanus, Maximiliaan; van Eijnatten, Eric Michael Cornelis Maria, Distributor with a rotatable U-shaped connection channel.
  15. Joseph A. Zupanick, Drainage pattern with intersecting wells drilled from surface.
  16. Cholin John M. (Oakland NJ), Electro-optical valve-status supervision switch circuit for fire protection.
  17. Fletcher Douglas C. (Peoria IL) Bruninga Kenneth J. (Mapleton IL), Electronic water sprinkler timer.
  18. Fletcher Douglas C. (Peoria IL) Bruninga Kenneth J. (Mapleton IL), Electronic water sprinkler timer.
  19. Cohen William (Kibbutz Givat Chaim-Ichud ILX), Fluid distributor system.
  20. Pratt,Christopher A.; Walter,Bruno H., Lining well bore junctions.
  21. Horikawa Hiroshi (Minami-ashigara JPX) Uchida Yoshiaki (Minami-ashigara JPX), Liquid passage switching device.
  22. Zupanick,Joseph A.; Rial,Monty H., Method and system for accessing a subterranean zone from a limited surface area.
  23. Zupanick,Joseph A.; Rial,Monty H., Method and system for accessing a subterranean zone from a limited surface area.
  24. Zupanick, Joseph A., Method and system for accessing subterranean deposit from the surface.
  25. Zupanick, Joseph A.; Rial, Monty H., Method and system for accessing subterranean deposits from a limited surface area.
  26. Zupanick, Joseph A., Method and system for accessing subterranean deposits from the surface.
  27. Zupanick, Joseph A., Method and system for accessing subterranean deposits from the surface.
  28. Zupanick, Joseph A., Method and system for accessing subterranean deposits from the surface.
  29. Zupanick, Joseph A., Method and system for accessing subterranean deposits from the surface.
  30. Zupanick, Joseph A., Method and system for accessing subterranean deposits from the surface.
  31. Zupanick, Joseph A., Method and system for accessing subterranean deposits from the surface.
  32. Zupanich, Joseph Alan, Method and system for accessing subterranean deposits from the surface and tools therefor.
  33. Zupanich, Joseph Alan, Method and system for accessing subterranean deposits from the surface and tools therefor.
  34. Zupanich, Joseph Alan, Method and system for accessing subterranean deposits from the surface and tools therefor.
  35. Zupanick, Joseph A., Method and system for accessing subterranean deposits from the surface and tools therefor.
  36. Zupanick, Joseph A., Method and system for accessing subterranean deposits from the surface and tools therefor.
  37. Zupanick, Joseph A., Method and system for accessing subterranean deposits from the surface and tools therefor.
  38. Zupanick, Joseph A., Method and system for accessing subterranean deposits from the surface and tools therefor.
  39. Zupanick, Joseph A., Method and system for accessing subterranean deposits from the surface and tools therefor.
  40. Zupanick, Joseph A., Method and system for accessing subterranean deposits from the surface and tools therefor.
  41. Zupanick, Joseph Alan, Method and system for accessing subterranean deposits from the surface and tools therefor.
  42. Joseph A. Zupanick ; Monty H. Rial, Method and system for accessing subterranean zones from a limited surface area.
  43. Zupanick, Joseph A.; Rial, Monty H., Method and system for accessing subterranean zones from a limited surface area.
  44. Zupanick, Joseph A., Method and system for circulating fluid in a well system.
  45. Zupanick,Joseph A., Method and system for circulating fluid in a well system.
  46. Zupanick,Joseph A.; Merendino, Jr.,Frank, Method and system for controlling pressure in a dual well system.
  47. Zupanick, Joseph A, Method and system for enhanced access to a subterranean zone.
  48. Seams,Douglas P., Method and system for extraction of resources from a subterranean well bore.
  49. Pratt,Christopher Arnold, Method and system for lining multilateral wells.
  50. Zupanick, Joseph A.; Rial, Monty H., Method and system for management of by-products from subterranean zones.
  51. Zupanick,Joseph A.; Rial,Monty, Method and system for recirculating fluid in a well system.
  52. Diamond,Lawrence W.; Zupanick,Joseph A., Method and system for removing fluid from a subterranean zone using an enlarged cavity.
  53. Zupanick, Joseph A.; Rial, Monty H., Method and system for surface production of gas from a subterranean zone.
  54. Zupanick,Joseph A., Method and system for testing a partially formed hydrocarbon well for evaluation and well planning refinement.
  55. Zupanick,Joseph A.; Rial,Monty H., Method and system for underground treatment of materials.
  56. Zupanick, Joseph A., Method for accessing subterranean deposits from the surface.
  57. Zupanick Joseph A., Method for production of gas from a coal seam using intersecting well bores.
  58. Zupanick, Joseph A., Method of drilling lateral wellbores from a slant well without utilizing a whipstock.
  59. Whistler Wayne J. (Glendora CA), Multi-port valve in a gas collection system and method of using same.
  60. Tower, Christopher R., Multi-position micro-fluidic valve system with removable encoder assembly.
  61. Pauley,Steven R., Multi-purpose well bores and method for accessing a subterranean zone from the surface.
  62. Jessop Paul A. (Northwich GB2), Multi-stream fluid sampling valve.
  63. Zupanick, Joseph A., Multi-well structure for accessing subterranean deposits.
  64. Peterson Roger, Multiport valve system through which sample gas continuously flows in selected and non selected ports.
  65. Backe Bengt S. (Dundee IL) Durham Lamoyne W. (Bartlet IL), Operating system for a valve.
  66. Dugas Roger A. (Chester NH), Optical valve position sensing.
  67. Usui Seiji (Kyoto JPX) Terada Kunio (Kyoto JPX), Packing having multiple seal portions.
  68. Watson,Richard R., Piloted directional control valve.
  69. Dolenti, William T.; Morris, Daniel J.; Carlson, Daniel; Fleury, Byron A.; Simons, David R., Power generation for valve actuators.
  70. Bruninga Kenneth J. (Mapleton IL) Fletcher Douglas C. (Peoria IL), Quick disconnect mounted programming means for sprinkler.
  71. Zupanick, Joseph A., Ramping well bores.
  72. Yokoe, Satoru; Hara, Tetsuhiko, Refrigerant valve device.
  73. Henriksen, Melvin S.; Meyer, Richard C., Rotary sheer valve with wash and purge station.
  74. Sedy Josef (Singapore SGX), Rotary vacuum valve.
  75. Baker Joseph (Somerville NJ), Rotary valve.
  76. Hans Gunther Schick, Selection valve with ferrule cluster.
  77. Schick Hans Gunther, Selection valve with ferrule cluster.
  78. Dando, Ross S.; Sandhu, Gurtej S.; Mardian, Allen P., Semiconductor processing reactive precursor valve assembly.
  79. Zupanick, Joseph A., Slant entry well system and method.
  80. Zupanick, Joseph A., Slant entry well system and method.
  81. Zupanick,Joseph A., Slant entry well system and method.
  82. Zupanick,Joseph A.; Rial,Monty H., Slot cavity.
  83. Zupanick, Joseph A.; Rial, Monty H., Subterranean drainage pattern.
  84. Sterghos Peter M. ; Sodeika John A. ; Cosgrove Patrick J. ; Godsted Jeff ; Kinports Brian D., Swimming pool control system.
  85. Wiechers, Joachim; Hochgraeber, Hermann, Switching valve for high-performance liquid chromatography.
  86. Hochgraeber, Hermann; Seyferth, Burkhard, Switching valve for liquid chromatography.
  87. Wiechers, Joachim; Hochgraeber, Hermann, Switching valve for liquid chromatography.
  88. Wiechers, Joachim; Hochgraeber, Hermann; Springer, Robert, Switching valve for liquid chromatography.
  89. Zupanick, Joseph, System and method for accessing subterranean deposits.
  90. Seams,Douglas P., System and method for enhancing permeability of a subterranean zone at a horizontal well bore.
  91. Zupanick,Joseph A., System and method for multiple wells from a common surface location.
  92. Joseph A. Zupanick, System for accessing subterranean deposits from the surface.
  93. Zupanick, Joseph A., Three-dimensional well system for accessing subterranean zones.
  94. Zupanick,Joseph A., Three-dimensional well system for accessing subterranean zones.
  95. Zupanick,Joseph A., Three-dimensional well system for accessing subterranean zones.
  96. Zupanick, Joseph A., Undulating well bore.
  97. Dahlke, Rainer; Jeziorski, Markus; Attig, Hans Robert; Claussen, Jan; Schaeffer, Eva, Valve.
  98. Kihm Joe A. (Churchville PA), Valve actuator position indicating system.
  99. Dando,Ross S.; Sandhu,Gurtej S.; Mardian,Allen P., Valve assemblies for use with a reactive precursor in semiconductor processing.
  100. Hiddessen Ralf,DEX ; Ossenbrugge Jan-Peter,DEX ; Grove Horst,DEX ; Rieck Frank,DEX, Valve construction.
  101. Onodera Koichi,JPX, Valve of vacuum apparatus.
  102. Gamache, Yves, Valve with a loading varying mechanism, and method of operating the same.
  103. Duboy, Dominique; Amagat, Christophe, Valve with position sensor.
  104. Joseph A. Zupanick, Wellbore pattern for uniform access to subterranean deposits.
  105. Zupanick,Joseph A., Wellbore plug system and method.
  106. Zupanick,Joseph A., Wellbore sealing system and method.
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