Diesel particulate filter pulse cleaner flow director system and method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01D-046/00
B01D-046/46
B01D-046/44
B01D-046/30
B01D-049/00
B01D-041/00
B01D-045/18
B01D-045/00
B01D-024/00
B01D-039/06
B01D-039/02
B01D-039/14
B03C-003/00
출원번호
UP-0755902
(2007-05-31)
등록번호
US-7582141
(2009-09-16)
발명자
/ 주소
Ehlers, Mark S.
출원인 / 주소
International Truck Intellectual Property Company, LLC
대리인 / 주소
Calfa, Jeffrey P.
인용정보
피인용 횟수 :
10인용 특허 :
15
초록▼
A cone (36) and a ring (38) are accessories separately used during respective phases of cleaning a diesel particulate filter (10, 10') in a cleaning machine that uses compressed air pulses to clean the substrate (12) where particulate matter in engine exhaust has been trapped. In one phase the ring
A cone (36) and a ring (38) are accessories separately used during respective phases of cleaning a diesel particulate filter (10, 10') in a cleaning machine that uses compressed air pulses to clean the substrate (12) where particulate matter in engine exhaust has been trapped. In one phase the ring covers the outer perimeter margin of one end face of the substrate, and in the other phase the cone covers a central inner zone of the end face.
대표청구항▼
What is claimed is: 1. A method for dislodging trapped particulate matter from a substrate of a diesel particulate filter (DPF) wherein the larger end of a frustoconical wall is fit to en outer circumference of one end face of the substrate, the method comprising: occluding a portion of the one end
What is claimed is: 1. A method for dislodging trapped particulate matter from a substrate of a diesel particulate filter (DPF) wherein the larger end of a frustoconical wall is fit to en outer circumference of one end face of the substrate, the method comprising: occluding a portion of the one end face by placing a cover over the portion of the one end face to prevent air from entering the one end of the substrate through the occluded portion; and blowing air toward the one end face through a passageway circumscribed by the frustoconical wall with sufficient pressure to force the air to enter the substrate through an unoccluded portion of the one end face, to pass through the substrate and in the process dislodge particulate matter from the substrate, and to convey the dislodged matter out of the substrate through an opposite end face of the substrate; wherein the step of placing a cover over the one end face to prevent air from entering the one end face through the occluded portion comprises placing the larger end of a cone, over the one end face to occlude an inner zone of the one end face while leaving en outer margin of the one end face that circumscribes the inner zone unoccluded so that when air is blown toward the one end face through the passageway circumscribed by the frustoconical wall, the cone directs the air to enter the substrate through the unoccluded outer margin of the one end face, pass through an outer portion of the substrate, and exit through the opposite end face, with the air dislodging particulate matter from the outer portion of the substrate during passage through the substrate and conveying the dislodged matter out of the substrate through the opposite end face; wherein the frustoconical wall is part of a DPF casing containing the substrate; wherein the step of placing an open end of the cone against the one end face comprises inserting the cone into the casing through an opening at a smaller end of the frustoconical wall and securing the cone in place with the open end of the cone against the one end face of the substrate; and placing the casing in a cleaning machine and operating the cleaning machine to blow air through the opening at the smaller end of the frustoconical wall into the casing for passage through the substrate and exiting through an opening at an opposite end of the casing after having passed through the substrate. 2. A method as set forth in claim 1 wherein the step of operating the cleaning machine to blow air through the opening at the smaller end of the frustoconical wall into the casing comprises operating the machine to blow the air as a succession of air pulses. 3. A method as set forth in claim 2 including the further steps of disassociating the casing from the machine after operation of the cleaning machine has ceased to allow the cone to be removed from the casing, removing the cone from the casing, then re-associating the casing with the machine so that air can again be blown through the casing, but now with the one end face of the substrate unoccluded, and then operating the machine to blow air through the casing. 4. A method as set forth in claim 1 wherein the step of placing a cover over the one end face to prevent air from entering the one end face through the occluded portion comprises placing a ring over an outer margin of the one end face that circumscribes a central inner zone of the one end face to leave the central inner zone of the one end face unoccluded so that when air is blown toward the one end face through the passageway circumscribed by the frustoconical wall, the air enters the substrate through the unoccluded portion of the one end face, passes through a central inner portion of the substrate, and exits through the opposite end face, with the air dislodging particulate matter from the central inner portion of the substrate during passage through the substrate and conveying the dislodged matter out of the substrate through the opposite end face. 5. A method as set forth in claim 4 wherein the frustoconical wall is part of a casing containing the substrate, the ring is a piece of deformable-reformable material, and the step of placing the ring against the one end face comprises deforming the piece of material to provide for it to be inserted into the casing through an opening at the smeller end of the frustoconical wall, reforming the piece of material to its original ring shape after insertion into the casing and securing the ring in place against the one end face of the substrate, and including the further steps of placing the casing in a cleaning machine and operating the cleaning machine to blow air through the opening at the smaller end of the frustoconical wall into the casing for passage through the substrate and exiting through an opening at an opposite end of the casing after having passed through the substrate. 6. A method as set forth in claim 5 wherein the step of operating the cleaning machine to blow air through the opening at the smaller end of the fruscoconical wall into the casing comprises operating the machine to blow the air as a succession of air pulses. 7. A method as sat forth in claim 6 including the further steps of disassociating the casing from the machine after operation of the cleaning machine has ceased to allow the ring to be removed from the casing, removing the ring from the casing, then re-associating the casing with the machine so that air can again be blown through the casing, but now with the one end face of the substrate unoccluded, and then operating the machine to blow air through the casing. 8. Cleaning apparatus for mechanically removing trapped particulate matter from a substrate of diesel particulate filter that is used in a diesel engine exhaust system, the cleaning apparatus comprising: a fruscoconical wall which circumscribes a passageway leading to one end face of the substrate and which has a larger end fit to an outer perimeter of one end face of the substrate; air delivery apparatus for forcing air to pass through the passageway, enter the substrate through the one end face, pass through the substrate and in the process dislodge particulate matter from the substrate, and convey dislodged matter out of the substrate through an opposite end face of the substrate; and a set of accessories comprising a first cover and a second cover that are associated with the substrate selectively during first and second phases of use of the cleaning apparatus, each for covering a selected limited portion of the one end face of the substrata during a respective phase of use, the first cover comprising a ring that has an outer perimeter corresponding substantially to an outer perimeter of the one end face of the substrate and that is disposed in covering relation to an outer perimeter margin of the one end face during a first phase of use to force air delivered by the air delivery apparatus to enter the one end face through a central inner zone circumscribed by the ring, pass through a central inner portion of the substrate, and exit at the opposite end face of the substrate, and the second cover comprising a cone that has a larger end and a smaller end, the larger end having a size for covering at least the open center area of the ring so that when the larger end is disposed in covering relation to the central inner zone during the second phase of use, the cone forces air delivered by the air delivery apparatus to enter the substrate through the outer perimeter margin of the one end face, pass through an outer portion of the substrate, and exit at the opposite end face of the substrate, wherein the frustoconical wall is part of a DPF casing containing the substrate; and wherein the frustoconical wall has an entrance opening through which the respective covers are inserted into and removed from the casing, the ring has an outside perimeter that is larger than the perimeter of the entrance opening, and the ring is a piece of deformable-reformable material that can be deformed to provide for it to be inserted into the casing through the entrance opening and reformed to its original ring shape after insertion into the casing.
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이 특허에 인용된 특허 (15)
Steele Gregory J. (Stillwater MN), Air filter with back flow cleaning.
Fayard,Jean Claude, Methods and device for filtration of exhaust gases for a diesel engine with a filtration surface which is variable by means of controlled obstruction.
Hiemstra, John; Stenersen, Eivind; Zhang, Wenzhong; Hovda, Allan T.; Reeves, Gary Dale; Kundert, Josh; Wagner, Wayne M.; Taubert, Todd R., System and method for regenerating an auxiliary power unit exhaust filter.
Hiemstra, John; Stenersen, Eivind; Zhang, Wenzhong; Hovda, Allan T.; Reeves, Gary Dale; Kundert, Josh; Wagner, Wayne M.; Taubert, Todd R.; Hiemstra, Derek; Peters, Scott, System and method for regenerating an auxiliary power unit exhaust filter.
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