IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0268068
(2002-10-08)
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발명자
/ 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
26 인용 특허 :
10 |
초록
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Filter media and filter structure or media pack can be engineered to exhibit high initial efficiency and to surface load particulate removed from a gaseous stream. The filter technology protects engine operation from ingested particulate and accumulates the particulate as a surface loaded layer visi
Filter media and filter structure or media pack can be engineered to exhibit high initial efficiency and to surface load particulate removed from a gaseous stream. The filter technology protects engine operation from ingested particulate and accumulates the particulate as a surface loaded layer visible on the surface of the structure. The particulate accumulates as a surface loaded layer until it achieves a certain depth of particulate or gray scale characteristic or color depth indicative of the end of the useful life of the filter prompting a change of the filter structure. The filter structure is characterized by its ability to surface load particulate, avoid accumulation of particulate in the depth media and enhance the characteristics of the material through surface loading. Such technology is particularly useful in light duty vehicle maintenance technology.
대표청구항
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1. An air filter element for a motor vehicle having an air intake or induction system, the air filter element comprising sufficient capacity for filtering about 1 to about 105 cfm of air in an engine having an output of about 2 to about 500 horsepower; the air filter element further comprising a whi
1. An air filter element for a motor vehicle having an air intake or induction system, the air filter element comprising sufficient capacity for filtering about 1 to about 105 cfm of air in an engine having an output of about 2 to about 500 horsepower; the air filter element further comprising a white filter media held within a cartridge, the white filter media, the media having an initial efficiency, under ASTM-1215-89 with mono-disperse 0.78 micron polystyrene latex particles at 20 ft/min velocity, of at least 20%, that rises to greater than 95% during its useful service life, the media comprising:(a) a filtration layer comprising a white layer of fine fiber comprising a web of fiber the fiber having a diameter of about 0.05 to about 1 microns, a basis weight of about 5·10?6 to 6·10?5 grams per square centimeter; and (b) the web of fine fiber formed on a filtration layer comprising a layer of a white filter media having an efficiency of at least 15% and a permeability of less than about 200 fpm; wherein the layer of fine fiber surface loads and accumulates a layer of particulate, the substrate accumulates substantially no particulate and the appearance of the accumulated layer compared to the white filter media indicates the useful service life of the filter media pack.2. The element of claim 1 wherein the element comprises a flat-panel element including a pleated media.3. The element of claim 1 wherein the element comprises a cylindrical element including a pleated media.4. The element of claim 1 wherein the element has an initial efficiency, under ASTM-1215-89 with mono-disperse 0.78 micron polystyrene latex particles at 20 ft/min velocity, of at least 30%, that rises to greater than 99%.5. The element of claim 1 wherein the substrate has permeability greater than about 10 fpm.6. The element of claim 1 wherein the white layer of fine fiber has a layer efficiency, under ASTM-1215-89 with mono-disperse 0.78 micron polystyrene latex particles at 20 ft/min velocity, of at least 40%, that rises to greater than 99%.7. The element of claim 1 wherein the white layer of fine fiber has a fiber diameter of about 0.1 to 0.4 microns and a basis weight of about 5·10?6 to 6·10?5 grams per square centimeter.8. The element of claim 1 wherein the substrate has efficiency less than about 40%, under ASTM-1215-89 with mono-disperse 0.78 micron polystyrene latex particles at 20 ft/min velocity.9. The element of claim 1 wherein the white layer of fine fiber has an average pore size of about 2 to 20 microns.10. A method of maintaining a motor vehicle using an air filter element replacement; the method comprising a maintenance process involving a motor vehicle having an air induction, the method comprising:(i) visually inspecting an air filter element installed in the induction system of the automobile, the air filter element comprises sufficient capacity for filtering about 1 to about 105 cfm of air in an engine having an output of about 2 to about 500 horsepower; to air filter element further comprising a white filter media held within a cartridge, the white filter media, the media having an initial efficiency, under ASTM-1215-89 with mono-disperse 0.78 micron polystyrene latex particles at 20 ft/min velocity, of at least 20%, that rises to greater than 95% during its useful service life, the media comprising: (a) a filtration layer comprising a white layer of fine fiber comprising a web of fiber the fiber having a diameter of about 0.05 to about 1 micron, a basis weight of about 5·10?6 to 6·10?5 grams per square centimeter; and (b) the web of fine fiber formed on a filtration layer comprising a layer of a white filter media having an efficiency of at least 15% and a permeability of less than about 200 fpm; wherein the layer of fine fiber surface loads and accumulates a layer of particulate, the substrate accumulates substantially no particulate and the appearance of the accumulated layer compared to the white filter media indicates the useful service life of the filter media pack; and(ii) replacing the filter element. 11. The element of claim 10 wherein the element comprises a flat-panel element including a pleated media.12. The element of claim 10 wherein the element comprises a cylindrical element including a pleated media.13. The element of claim 10 wherein the element has an initial efficiency, under ASTM-1215-89 with mono-disperse 0.78 micron polystyrene latex particles at 20 ft/min velocity, of at least 30%, that rises to greater than 99%.14. The element of claim 10 wherein the substrate has permeability greater tan about 10 fpm.15. The element of claim 10 wherein the white layer of fine fiber has a layer efficiency, under ASTM-1215-89 with mono-disperse 0.78 micron polystyrene latex particles at 20 ft/min velocity, of at least 40%, that rises to greater than 99%.16. The element of claim 10 wherein the white layer of fine fiber has a fiber diameter of about 0.1 to 0.4 microns and a basis weight of about 5·10?6 to 6·10?5 grams per square centimeter.17. The element of claim 10 wherein the substrate has efficiency less than about 40%, wider ASTM-1215-89 with mono-disperse 0.78 micron polystyrene latex particles at 20 ft/min velocity.18. The element of claim 10 wherein the white layer of fine fiber has an average pore size of about 2 to 20 microns.19. The method of claim 10 wherein the motor vehicle comprises a fuel cell typically consuming about 5 cfm of air per kilowatt of power output.20. A method of operating a motor vehicle maintenance business, including replacement of consumables, the method comprises:(i) periodically inspecting a motor vehicle on a routine return schedule, including an inspection of the air induction filter element the air filter element comprising sufficient capacity for filtering about 1 to about 105 cfm of air in an engine having an output of about 2 to about 500 horsepower; the air filter element further comprising a white filter media held within a cartridge, the white filter media, the media having an initial efficiency, under ASTM-1215-89 with monodisperse 0.78 micron polystyrene latex particles at 20 ft/min velocity, of at least 20%, that rises to greater than 95% during its useful service life, the media comprising: (a) a filtration layer comprising a white layer of fine fiber comprising a web of fiber the fiber having a diameter of about 0.05 to about 0.5 microns a basis weight of about 5·10?6 to 6·10?5 grams per square centimeter; and (b) the web of fine fiber formed on a filtration layer comprising a layer of a white filter media having an efficiency of at least 15% and a permeability of less than about 200 fpm; wherein the layer of fine fiber surface loads and accumulates a layer of particulate, the substrate accumulates substantially no particulate and the appearance of the accumulated layer compared to the white filter media indicates the useful service life of the filter media pack;(ii) obtaining a comparison the depth of color or intensity of gray scale to a standard; and (iii) replacing the element if the comparison establishes the end of the useful life of the filter. 21. The element of claim 20 wherein the element comprises a flat-panel element including a pleated media.22. The element of claim 20 wherein the element comprises a cylindrical element including a pleated media.23. The element of claim 20 wherein the element has an initial efficiency, under ASTM-1215-89 with mono-disperse 0.78 micron polystyrene latex particles at 20 ft/min velocity, of at least 30%, that rises to greater than 99%.24. The element of claim 20 wherein the substrate has permeability greater than about 10 fpm.25. The element of claim 20 wherein the white layer of fine fiber has a layer efficiency, under ASTM-1215-89 with mono-disperse 0.78 micron polystyrene latex particles at 20 ft/min velocity, of at least 40%, that rises to greater than 99%.26. The element of claim 20 wherein the white layer of fine fiber has a fiber diameter of about 0.1 to 0.4 microns and a basis weight of about 5·10?6 to 6·10?5 grams per square centimeter.27. The element of claim 20 wherein the substrate has efficiency less than about 40%, under ASTM-1215-89 with mono-disperse 0.78 micron polystyrene latex particles at 20 ft/min velocity.28. The element of claim 20 wherein the white layer of fine fiber has an average pore size of about 2 to 20 microns.29. The method of claim 20 wherein the motor vehicle comprises a fuel cell typically consuming about 5 cfm of air per kilowatt of power output.30. An air filter element for a motor vehicle having an air intake or induction system, the air filter element comprising sufficient capacity for filtering about 1 to about 105 cfm of air in an engine having an output of about 2 to about 500 horsepower; the air filter element further comprising a filter media, comprising a dark hue or color that can provide a contrast to a light particulate, held within a cartridge, the filter media having an initial efficiency, under ASTM-1215-89 with mono-disperse 0.78 micron polystyrene latex particles at 20 ft/min velocity, of at least 20%, that rises to greater than 95% during its useful service life, the media comprising:(a) a filtration layer comprising a layer of fine fiber, comprising a dark hue or color that can provide a contrast to a light particulate, the layer comprising a web of fiber the fiber having a diameter of about 0.05 to about 1 microns, a basis weight of about 5·10?6 to 6·10?5 grams per square centimeter; and (b) the layer of fine fiber formed on a filtration layer comprising a layer of filter media, comprising a dark hue or color that can provide a contrast to a light particulate, the filter media having an efficiency of at least 15% and a permeability of less than about 200 fpm; wherein the layer of fine fiber surface loads and accumulate a layer of particulate, the substrate accumulates substantially no particulate and the appearance of the accumulated layer compared to the filter media indicates the useful service life of the filter media pack.31. The element of claim 30 wherein the element comprises a flat-panel element including a pleated media.32. The element of claim 30 wherein the element comprises a cylindrical element including a pleated media.33. The element of claim 30 wherein the element has an initial efficiency, under ASTM-1215-89 with mono-disperse 0.78 micron polystyrene latex particles at 20 ft/min velocity, of at least 30%, that rises to greater than 99%.34. The element of claim 30 wherein the substrate has permeability greater than about 10 fpm.35. The element of claim 30 wherein the layer of fine fiber has a layer efficiency, under ASTM-1215-89 with mono-disperse 0.78 micron polystyrene latex particles at 20 ft/min velocity, of at least 40%, that rises to greater than 99%.36. The element of claim 30 wherein the layer of fine fiber has a fiber diameter of about 0.1 to 0.4 microns mm and a basis weight of about 5·10?6 to 6·10?5 grams per square centimeter.37. The element of claim 30 wherein the substrate has efficiency less than about 40% under ASTM-1215-89 with mono-disperse 0.78 micron polystyrene latex particles at 20 ft/min velocity.38. The element of claim 30 wherein the layer of fine fiber has an average pore size of about 2 to 20 micron.39. The method of claim 30 wherein the motor vehicle comprises a fuel cell typically consuming about 5 cfm of air per kilowatt of power output.40. A method of maintaining a motor vehicle using an air filter element replacement; the method comprising a maintenance process involving a motor vehicle having an air induction, the method comprising:(i) visually inspecting an air filter element installed in the induction system of the automobile, the air filter element comprising sufficient capacity for filtering about 1 to about 105 cfm of air in an engine having an output of about 2 to about 500 horsepower; the air filter element further comprising a filter media held within a cartridge, the filter media, comprising a dark hue or color that can provide a contrast to a light particulate, the media having an initial efficiency, under ASTM-1215-89 with mono-disperse 0.78 micron polystyrene latex particles at 20 ft/min velocity, of at least 20%, that rises to greater than 95% during its useful service life, the media comprising: (a) a filtration layer comprising a layer of fine fiber, comprising a dark hue or color that can provide a contrast to a light particulate, the layer comprising a web of fiber the fiber having a diameter of about 0.05 to about 1 micron, a basis weight of about 5·10?6 to 6·10?5 grams per square centimeter on the substrate; and (b) the layer of fine fiber formed on a filtration layer comprising a layer of filter media comprising a dark hue or color that can provide a contrast to a light particulate, the substrate having an efficiency of at least 15% and a permeability of less than about 200 fpm; wherein the layer of fine fiber surface loads and accumulates a layer of particulate, the substrate accumulates substantially no particulate and the appearance of the accumulated layer compared to the filter media indicates the useful service life of the filter media pack; and(ii) replacing the filter element. 41. The element of claim 40 wherein the element comprises a flat-panel element including a pleated media.42. The element of claim 40 wherein the element comprises a cylindrical element including a pleated media.43. The element of claim 40 wherein the element has an initial efficiency, under ASTM-1215-89 with mono-disperse 0.78 micron polystyrene latex particles at 20 ft/min velocity, of at least 30%, that rises to greater than 99%.44. The element of claim 40 wherein the substrate has permeability greater than about 10 fpm.45. The element of claim 40 wherein the layer of fine fiber has a layer efficiency, under ASTM-1215-89 with mono-disperse 0.78 micron polystyrene latex particles at 20 ft/min velocity, of at least 40%, that rises to greater than 99%.46. The element of claim 40 wherein the layer of fine fiber has a fiber diameter of about 0.1 to 0.4 microns and a basis weight of about 5·10?6 to 6·10?5 grams per square centimeter.47. The element of claim 40 wherein the substrate has efficiency less than about 40%, under ASTM-1215-89 with mono-disperse 0.78 micron polystyrene latex particles at 20 ft/min velocity.48. The element of claim 40 wherein the layer of fine fiber has an average pore size of about 2 to 20 microns.49. The method of claim 40 wherein the motor vehicle comprises a fuel cell typically consuming about 5 cfm of air per kilowatt of power output.50. A method of operating a motor vehicle maintenance business, including replacement of consumables, the method comprises:(i) periodically inspecting a motor vehicle on a routine return schedule, including an inspection of the air induction filter element the air filter element comprising sufficient capacity for filtering about 1 to about 105 cfm of air in an engine having an output of about 2 to about 500 horsepower; the air filter element further comprising a filter media held within a cartridge, the filter media comprising a dark hue or color that can provide a contrast to a light particulate, the media having an initial efficiency, under ASTM-1215-89 with monodisperse 0.78 micron polystyrene latex particles at 20 ft/min velocity, of at least 20%, that rises to greater than 95% during its useful service life, the media comprising: (a) a filtration layer comprising a layer of fine fiber, comprising a dark hue or color that can provide a contrast to a light particulate, comprising a web of fiber the fiber having a diameter of about 0.05 to about 0.5 microns a basis weight of about 5·10?6 to 6·10?5 grams per square centimeter; and (b) the web of fine fiber formed on a filtration layer comprising a layer of a white filter media having an efficiency of at least 15% and a permeability of less than about 200 fpm; wherein the layer of fine fiber surface loads and accumulates a layer of particulate, the substrate accumulates substantially no particulate and the appearance of the accumulated layer compared to the fitter media indicates the useful service life of the filter media pack;(ii) obtaining a comparison the contrast to a standard; and (iii) replacing the element if the comparison establishes the end of the useful life of the filter. 51. The element of claim 50 wherein the element comprises a flat-panel element including a pleated media.52. The element of claim 50 wherein the element comprises a cylindrical element including a pleated media.53. The element of claim 50 wherein the element has an initial efficiency, under ASTM-1215-89 with mono-disperse 0.78 micron polystyrene latex particles at 20 ft/min velocity, of at least 30%, that rises to greater than 99%.54. The element of claim 50 wherein the substrate has permeability greater than about 10 fpm.55. The element of claim 50 wherein the layer of fine fiber has a layer efficiency, under ASTM-1215-89 with mono-disperse 0.78 micron polystyrene later particles at 20 ft/min velocity, of at least 40%, that rises to greater than 99%.56. The element of claim 50 wherein the layer of fine fiber has a fiber diameter of about 0.1 to 0.4 microns and a basis weight of about 5·10?6 to 6·10?5 grams per square centimeter.57. The element of claim 50 wherein the substrate has efficiency less than about 40%, under ASTM-1215-89 with mono-disperse 0.78 micron polystyrene latex particles at 20 ft/mm velocity.58. The element of claim 50 wherein the layer of fine fiber has an average pore size of about 2 to 20 microns.59. The method of claim 50 wherein the motor vehicle comprises a fuel cell typically consuming about 5 cfm of air per kilowatt of power output.
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