Exhaust treatment device having submerged connecting flanges
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01D-046/00
B01D-035/30
출원번호
US-0067055
(2005-02-28)
등록번호
US-7501005
(2009-03-10)
발명자
/ 주소
Thaler,Dave Michael
출원인 / 주소
Caterpillar Inc.
대리인 / 주소
Finnegan, Henderson, Farabow, Garrett & Dunner
인용정보
피인용 횟수 :
15인용 특허 :
15
초록▼
An exhaust treatment device is provided for a power system. The exhaust treatment device has an inlet module, a filter module, an outlet module, and a clamping element. The filter has a housing with at least one submerged flange. At least one of the inlet and the outlet modules also have at least o
An exhaust treatment device is provided for a power system. The exhaust treatment device has an inlet module, a filter module, an outlet module, and a clamping element. The filter has a housing with at least one submerged flange. At least one of the inlet and the outlet modules also have at least one submerged flange. The clamping element is configured to engage the at least one submerged flange of the filter module and the at least one submerged flange of the at least one of the inlet and the outlet modules to connect the filter module to the at least one of the inlet and outlet modules.
대표청구항▼
What is claimed is: 1. A filter module, comprising: a filter element; and a filter housing, the filter housing including: a sleeve portion; a first end portion; and a second end portion, wherein each of the first and second end portions have at least one submerged flange, wherein the at least one
What is claimed is: 1. A filter module, comprising: a filter element; and a filter housing, the filter housing including: a sleeve portion; a first end portion; and a second end portion, wherein each of the first and second end portions have at least one submerged flange, wherein the at least one submerged flange of the first and second end portions axially retain the filter element within the sleeve portion, and wherein the first end portion and the second end portion are integral to the sleeve portion and the submerged flanges are formed by bending ends of the sleeve portion. 2. The filter module of claim 1, further including at least one mat member disposed radially between the filter element and the sleeve portion. 3. The filter module of claim 2, further including a gasket member disposed at axial ends of the at least one mat member. 4. An exhaust treatment device, comprising: an inlet module; a filter module having a housing, including a first end portion, a second end portion, and a filter element, wherein each of the first and second end portions has at least one submerged flange; an outlet module; and a first clamping element, wherein the at least one submerged flange of the first end portion and the at least one submerged flange of the second end portion axially retain the filter element within the housing of the filter module, and wherein at least one of the inlet and the outlet modules have at least one submerged flange, and the first clamping element is configured to engage at least one of the submerged flanges of the filter module and the at least one submerged flange of the inlet and outlet modules to connect the filter module to the at least one of the inlet and outlet modules. 5. The exhaust treatment device of claim 4, further including: a catalyst module having a housing with at least one submerged flange and being disposed between the filter module and one of the inlet and outlet modules; and a second clamping element wherein the second clamping element is configured to engage a second submerged flange of the housing of the filter module and the at least one submerged flange of the catalyst module to connect the filter module to the catalyst module. 6. The exhaust treatment device of claim 4, further including: at least one mat member disposed radially between the filter element and the housing of the filter module; and a gasket member disposed at each axial end of the at least one mat member. 7. The exhaust treatment device of claim 4, further including a retaining system having: a first rod member configured to engage at least one of the submerged flanges of the filter module; and a second rod member configured to engage the at least one submerged flange of the at least one of the inlet and outlet modules to constrain the movement of the exhaust treatment device. 8. The exhaust treatment device of claim 7, wherein the first rod member annularly contacts a majority of the periphery of the at least one submerged flange of the filter module and the second rod member annularly contacts a majority of the periphery of the at least one submerged flange of the at least one of the inlet and outlet modules. 9. The exhaust treatment device of claim 8, wherein each of the first and second rod members includes a first end and a second end, and the exhaust treatment device further includes a flange member connected to the first and second ends of both of the first and second rod members. 10. The exhaust treatment device of claim 7, wherein any one of the inlet module, fitter module, and outlet module is removable from the exhaust treatment device while the remaining modules of the exhaust treatment device remain substantially constrained from movement. 11. A method of assembling a filter module, comprising: forming a submerged flange on a first end of a cylindrical sleeve; inserting a filter element into the cylindrical sleeve; and forming a submerged flange on a second end of the cylindrical sleeve to axially retain the filter element within the cylindrical sleeve, wherein the first and second submerged flanges are formed from end portions of the cylindrical sleeve through at least one of a roll-forming and a spin-forming fabrication process. 12. The method of claim 11, further including disposing a mat between an outer surface of the filter element and an inner surface of the cylindrical sleeve. 13. The method of claim 12, further including heating the filter module to cause the mat to expand and radially position the filter element. 14. The method of claim 13, wherein heating includes raising the temperature of the filter module to about 500�� C. and maintaining the temperature at about 500�� C. for about one hour. 15. The method of claim 11, further including disposing a gasket element at each end of the filter module. 16. A power system, comprising: an engine operable to produce an exhaust air flow; an exhaust treatment device operatively connected to the engine and configured to receive the exhaust air flow, the exhaust treatment device including: an inlet module; a filter module having a housing, including a first end portion, a second end portion, and a filter element, wherein each of the first and second end portions has at least one submerged flange; an outlet module; and a clamping element, wherein the at least one submerged flange of the first end portion and the at least one submerged flange of the second end portion axially retain the filter element within the housing of the filter module, and wherein at least one of the inlet and the outlet modules have at least one submerged flange, and the clamping element is configured to engage at least one of the submerged flanges of the filler module and the at least one submerged flange of the inlet and outlet modules to connect the filter module to the at least one of the inlet and outlet modules. 17. The power system of claim 16, further including: a catalyst module having a housing with at least one submerged flange and being disposed between the filter module and one of the inlet and outlet modules; and a second clamping element, wherein the second clamping element is configured to engage a second submerged flange of the housing of the filter module and the at least one submerged flange of the catalyst module to conned the filter module to the catalyst module. 18. The power system of claim 16, wherein the filter module includes: at least one mat member disposed radially between the filter element and the housing of the filter module; and a gasket member disposed at each axial end of the at least one mat member. wherein the submerged flanges of the filter module retain the filter element, mat member, and gasket member within the housing of the filter module. 19. The power system of claim 16, further including a retaining system having: a first rod member configured to engage at least one of the submerged flanges of the filter module, and having a first and a second end; a second rod member configured to engage the at least one submerged flange of the at least one of the inlet and outlet modules to constrain the movement of the exhaust treatment device, and having a first and a second end; and a flange member connected to the first and second ends of both of the first and second rod members, wherein the first rod member annularly contacts a majority of the periphery of the at least one submerged flange of the filter module and the second rod member annularly contacts a majority of the periphery of the at least one submerged flange of the at least one of the inlet and outlet modules. 20. The power system of claim 16, wherein any one of the inlet module, filter module, and outlet module is removable from the exhaust treatment device while the remaining modules of the exhaust treatment device remain constrained from movement. 21. A filter module, comprising: a filter element; and a filter housing, the filter housing including: a sleeve portion; a first end portion; and a second end portion, wherein each of the first and second end portions have at least one submerged flange, wherein the at least one submerged flange of the first and second end portions axially retain the filter element within the sleeve portion, and wherein the first end portion and the second end portion are integral to the sleeve portion. 22. The filter module of claim 21, further including at least one mat member disposed radially between the filter element and the sleeve portion. 23. The filter module of claim 22, further including a gasket member disposed at axial ends of the at least one mat member.
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