Apparatus and method for an exhaust aftertreatment device
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01D-046/00
B01D-035/30
출원번호
US-0975896
(2004-10-28)
등록번호
US-7323030
(2008-01-29)
발명자
/ 주소
Andersen,Eric Hans
Schacher,Ricky Paul
Turek,Alan Gerard
출원인 / 주소
Delphi Technologies, Inc.
대리인 / 주소
Marshall,Paul L.
인용정보
피인용 횟수 :
6인용 특허 :
14
초록▼
An internally insulated exhaust aftertreatment device with a converter body, an end cone assembly and a sealing device inserted in an annular area between the external shell and the substrate of the converter body. The sealing device is sealingly engaged between an inner end cone and the insulating
An internally insulated exhaust aftertreatment device with a converter body, an end cone assembly and a sealing device inserted in an annular area between the external shell and the substrate of the converter body. The sealing device is sealingly engaged between an inner end cone and the insulating material. The sealing device comprises a wire-mesh ring-shaped device conformable to the annulus between the substrate and the shell, and may have a substantially round cross-sectional area, a C-shaped cross-sectional area, or an L-shaped cross-sectional area.
대표청구항▼
Having thus described the invention, it is claimed: 1. An exhaust aftertreatment device, comprising: a converter body, including an external shell containing a substrate substantially completely wrapped in an insulating material; an end cone assembly coaxially disposed with the longitudinal axis of
Having thus described the invention, it is claimed: 1. An exhaust aftertreatment device, comprising: a converter body, including an external shell containing a substrate substantially completely wrapped in an insulating material; an end cone assembly coaxially disposed with the longitudinal axis of said converter body, said end cone assembly including an inner end cone and an outer end cone; and, a resilient wire mesh seal, inserted in an annular area radially intermediate the external shell and the substrate immediately axially adjacent the insulating material; wherein the wire mesh seal is substantially sealingly engaged between the inner end cone and the insulating material, and said inner end cone is configured to form an interference fit with and to locally deform said wire mesh seal wherein a portion of said wire mesh seal extrudes axially between the inner end core and the substrate. 2. The exhaust aftertreatment device of claim 1, wherein the wire mesh seal comprises a ring-shaped device radially conformable to the annulus between the substrate and the shell. 3. The exhaust aftertreatment device of claim 1, wherein the wire mesh seal has a substantially round cross-sectional area. 4. The exhaust aftertreatment device of claim 1, wherein the wire mesh seal is operable to substantially completely seal the insulating material from exposure to flow of exhaust gases. 5. The exhaust aftertreatment device of claim 4, wherein the substrate is a high cell-density substrate. 6. The exhaust aftertreatment device of claim 1, wherein the wire mesh seal has a substantially C-shaped cross-sectional area. 7. The exhaust aftertreatment device of claim 1, wherein the wire mesh seal has a substantially L-shaped cross-sectional area. 8. A method for assembling an exhaust aftertreatment device, comprising: assembling a converter body by inserting a substrate substantially completely wrapped in an insulating material within an external shell; assembling an end cone assembly comprising an inner end cone and an outer end cone; inserting a resilient wire mesh seal in an annular area between the external shell and the substrate on at least one end of the converter body; and, assembling the end cones onto ends of the assembled converter body such that the wire mesh seal is substantially sealingly engaged between the inner end cone and the insulating material by an interference fit therebetween affecting localized axial deformation of a portion of said wire mesh seal between the substrate and the inner end cone. 9. An exhaust aftertreatment device comprising: a converter body including a tube-shaped metallic shell, a catalyst substrate disposed within the shell and a mat of fibrous thermal insulating material compressively disposed between the inner peripheral surface of the shell and the outer peripheral surface of the catalyst substrate; an inlet end cone assembly including an outer metallic end cone, an inner metallic end cone and fibrous thermal insulating material compressively disposed therebetween, said inlet end cone assembly coaxially disposed with the longitudinal axis of said converter body, wherein said outer end cone has a reduced diameter inlet and an outlet having a cross-sectional shape conforming with the metallic shell of the converter body for sealing engagement therewith, and wherein said inner end cone has a reduced diameter inlet sealingly affixed to the outer cone inlet and an outlet extending axially within said converter body radially intermediate the inner peripheral surface of said shell and the outer peripheral surface of said catalyst substrate, said inner cone outlet defining an axially directed skirt edge terminus circumscribing said catalyst substrate; and a resilient ring-shaped wire mesh seal compressively disposed within said converter body, conforming to the annulus between the inner peripheral surface of the shell and the outer peripheral surface of the catalyst substrate axially intermediate an upstream end of said mat and a downstream end of the end cone insulating material, wherein said inner cone skirt edge is configured to form an interference fit with and to locally deform said wire mesh seal, whereby a portion of said wire mesh seal extrudes axially between the inner end cone outlet and the outer peripheral surface of said catalytic substrate. 10. The exhaust aftertreatment device of claim 9, further comprising: an outlet end cone assembly including an outer metallic end cone, an inner metallic end cone and fibrous thermal insulating material compressively disposed therebetween, said outlet end cone assembly coaxially disposed with the longitudinal axis of said converter body longitudinally opposite said inlet end cone assembly, wherein the outer end cone of said outlet end cone assembly has a reduced diameter outlet and an inlet having a cross-sectional shape conforming with the metallic shell of the converter body for sealing engagement therewith, and wherein the inner end cone of said outlet end cone assembly has a reduced diameter outlet sealingly affixed to the outer cone outlet and an inlet extending axially within said converter body radially intermediate the inner peripheral surface of said shell and the outer peripheral surface of said catalyst substrate, said inner cone inlet defining an axially directed skirt edge terminus circumscribing said catalyst substrate; and a resilient ring-shaped wire mesh seal compressively disposed within said converter body, conforming to the annulus between the inner peripheral surface of the shell and the outer peripheral surface of the catalyst substrate axially intermediate an downstream end of said mat and a upstream end of the outlet end cone insulating material, wherein said inner cone skirt edge is configured to form an interference fit with and to locally deform said wire mesh seal, whereby a portion of said wire mesh seal extrudes axially between the inner end cone inlet and the outer peripheral surface of said catalytic substrate.
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이 특허에 인용된 특허 (14)
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Kreucher John E. (Davison MI) Wendland Daniel W. (Rochester Hills MI) McClaughry ; III Richard S. (Grand Blanc MI) Shah Ramesh C. (Novi MI), Integral cast diffuser for a catalytic converter.
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