Apparatus and method for forming an antipollution device housing
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B21J-007/16
B21D-015/02
B21J-009/06
B21D-041/04
B21D-051/10
B21D-037/10
F01N-003/28
출원번호
US-0359669
(2012-01-27)
등록번호
US-9079235
(2015-07-14)
발명자
/ 주소
Sojak, Richard
Kys, James E.
출원인 / 주소
GWS Tube Forming Solutions Inc.
인용정보
피인용 횟수 :
0인용 특허 :
30
초록▼
A tool assembly for forming a workpiece into a housing with a non-round design outer profile at least partially defined by an outer surface at a design position reduced from the initial position thereof. The tool assembly includes a ring portion having a bore therein at least partially defined by an
A tool assembly for forming a workpiece into a housing with a non-round design outer profile at least partially defined by an outer surface at a design position reduced from the initial position thereof. The tool assembly includes a ring portion having a bore therein at least partially defined by an inner surface, and an insert portion with a back plate and a number of elongate jaw segments, each jaw segment having between a back end thereof engaged with the back plate. When the insert portion is moved from an open condition to a closed condition, the inner surface of the ring portion urges the jaw segments inwardly, causing the jaw segments to engage substantially the entire outer surface and to move the outer surface from an initial position to the design position, reducing an initial outer profile to the design outer profile and forming the workpiece into the housing.
대표청구항▼
1. A tool assembly for forming a workpiece with an initial outer profile at least partially defined by an outer surface thereof at an initial position into a housing with a non-round design outer profile at least partially defined by the outer surface at a design position reduced from the initial po
1. A tool assembly for forming a workpiece with an initial outer profile at least partially defined by an outer surface thereof at an initial position into a housing with a non-round design outer profile at least partially defined by the outer surface at a design position reduced from the initial position thereof, the tool assembly comprising: a ring portion comprising a bore therein at least partially defined by an inner surface;an insert portion comprising: a back plate;a plurality of elongate jaw segments, each said jaw segment extending between a back end thereof engaged with the back plate and a front end thereof distal to the back plate;said jaw segments being divided into a plurality of groups, each said group comprising at least two of said jaw segments;each said jaw segment comprising an internal surface for engaging the outer surface and an at least partially tapered external surface for sliding engagement with the inner surface of the ring portion;the jaw segments being movable along respective substantially straight predetermined paths between a first condition, in which the internal surfaces of the jaw segments at least partially define an opening in which the workpiece is receivable, and a second condition, in which the internal surfaces of the jaw segments substantially define the design position of the outer surface;each said predetermined path extending at an angle normal to said internal surface of the respective jaw segment therefor;the predetermined paths being aligned with a plurality of preselected end points, respectively, said preselected end points being respective points of convergence of said predetermined paths for the jaw segments in the respective groups of jaw segments, and each of the preselected end points being located physically and spatially separate from each other;each said group of said jaw segments being associated with a selected one of said preselected end points, each said jaw segment in each said group being movable along the predetermined path therefor toward the selected one of the preselected end points for the group thereof as the jaw segments are moved from the first condition to the second condition;for each of the preselected end points, a radius centered thereon being substantially coincident with a portion of the design outer profile that is substantially defined by the internal surfaces of the jaw segments in the group associated with each said preselected end point respectively, when the jaw segments are in the second condition;the jaw segments being at least partially receivable in the bore of the ring portion;the insert portion being movable relative to the ring portion between an open condition of the tool assembly, in which the back plate is positioned distal to the ring portion, and a closed condition of the tool assembly, in which the back plate is positioned proximal to the ring portion; andwhen the insert portion moves from the open condition to the closed condition, the inner surface of the ring portion urges the jaw segments inwardly from the first condition to the second condition, causing the jaw segments to engage substantially the entire outer surface of the workpiece and to move the outer surface from the initial position to the design position, reducing the initial outer profile to the design outer profile and forming the workpiece into the housing. 2. A tool assembly according to claim 1 in which movement of the jaw segments from the first condition toward the second condition causes substantially uniform movement of substantially the entire outer surface of the workpiece. 3. A tool assembly according to claim 1 in which each said jaw segment comprises a key portion respectively, each said key portion being receivable in a keyway in the back plate for guiding each said jaw segment along the predetermined path therefor respectively. 4. A tool assembly according to claim 1 in which each said jaw segment is movable along the predetermined path therefor by at least one motive means. 5. A method for forming a workpiece with an initial outer profile at least partially defined by an outer surface thereof at an initial position into a housing with a non-round design outer profile at least partially defined by the outer surface at a design position reduced from the initial position thereof, the method comprising: (a) providing a ring portion comprising a bore therein defined by an inner surface;(b) providing an insert portion comprising: a back plate;a plurality of jaw segments, each said jaw segment extending between a back end thereof engageable with the back plate and a front end distal to the back plate;said jaw segments being divided into a plurality of groups, each said group comprising at least two of said jaw segments;each said jaw segment comprising an internal surface for engaging the outer surface and an at least partially tapered external surface for engagement with the inner surface of the ring portion;the jaw segments being movable along respective substantially straight predetermined paths between a first condition, in which the internal surfaces of the jaw segments at least partially define an opening in which the workpiece is at least partially positionable, and a second condition, in which the internal surfaces of the jaw segments substantially define the design position of the outer surface;each said predetermined path extending at an angle normal to said internal surface of the respective jaw segment therefor;the predetermined paths being aligned respectively with a plurality of preselected end points therefor, said preselected end points being respective points of convergence of said predetermined paths for the jaw segments in the respective groups of jaw segments, and each of the preselected end points being located physically and spatially separate from each other;each said group of said jaw segments being associated with a selected one of said preselected end points;for each of the preselected end points, a radius centered thereon being substantially coincident with a portion of the design outer profile that is substantially defined by the internal surfaces of the jaw segments in the group associated therewith, when the jaw segments are in the second condition;the insert portion being movable relative to the ring portion between an open condition, in which the back plate is positioned distal to the ring portion, and a closed condition, in which the back plate is positioned proximal to the ring portion;(c) positioning at least parts of the jaw segments in the bore of the ring portion;(d) moving the jaw segments to the first condition;(e) inserting the workpiece in the opening; and(f) moving the back plate toward the ring portion to engage the inner surface of the ring portion with the external surfaces of the jaw segments, to urge the jaw segments inwardly along the respective predetermined paths to the second condition such that the internal surfaces of the jaw segments engage substantially the entire outer surface of the workpiece and move the outer surface from the initial position to the design position, reducing the initial outer profile to the design outer profile and forming the workpiece into the housing. 6. A method according to claim 5 in which, in step (f), the movement of the jaw segments from the first condition toward the second condition causes substantially uniform movement of the outer surface of the workpiece. 7. A method according to claim 5 in which each said jaw segment is guided along the predetermined path therefor by a key portion thereof receivable in a keyway in the back plate. 8. A method according to claim 5 in which each said jaw segment is moved along the predetermined path therefor by at least one motive means. 9. A tool assembly for forming a workpiece with an initial outer profile at least partially defined by an outer surface thereof at an initial position into a housing with a non-round design outer profile at least partially defined by the outer surface at a design position reduced from the initial position thereof, the tool assembly comprising: a ring portion comprising a bore therein at least partially defined by an inner surface;an insert portion comprising: a back plate;a plurality of elongate jaw segments, each said jaw segment extending between a back end thereof engaged with the back plate and a front end thereof distal to the back plate;said jaw segments being divided into a plurality of groups, each said group comprising at least two of said jaw segments;each said jaw segment comprising an internal surface for engaging the outer surface and an at least partially tapered external surface for sliding engagement with the inner surface of the ring portion;the jaw segments being movable along respective substantially straight predetermined paths between a first condition, in which the internal surfaces of the jaw segments at least partially define an opening in which the workpiece is receivable, and a second condition, in which the internal surfaces of the jaw segments substantially define the design position of the outer surface;each said predetermined path extending at an angle normal to said internal surface of the respective jaw segment therefor;the predetermined paths being aligned with a plurality of preselected end points respectively, said preselected end points being respective points of convergence of said predetermined paths for the jaw segments in the respective groups of jaw segments, and each of the preselected end points being located physically and spatially separate from each other;each said group of said jaw segments being associated with a selected one of said preselected end points, each said jaw segment in each said group being movable along the predetermined path therefor toward the selected one of the preselected end points for the group thereof as the jaw segments are movable from the first condition to the second condition;for each of the preselected end points, a radius centered thereon being substantially coincident with a portion of the design outer profile that is substantially defined by the internal surfaces of the jaw segments in the group associated with each preselected end point respectively, when the jaw segments are in the second condition;the jaw segments being at least partially receivable in the bore of the ring portion;the ring portion being movable relative to the insert portion between an open condition of the tool assembly, in which the ring portion is positioned distal to the back plate, and a closed condition of the tool assembly, in which the ring portion is positioned proximal to the back plate; andwhen the ring portion moves from the open condition to the closed condition, the inner surface of the ring portion urges the jaw segments inwardly from the first condition to the second condition, causing the jaw segments to engage substantially the entire outer surface and to move the outer surface from the initial position to the design position, reducing the initial outer profile to the design outer profile and forming the workpiece into the housing. 10. A tool assembly according to claim 9 in which movement of the jaw segments from the first condition toward the second condition causes substantially uniform movement of substantially the entire outer surface of the workpiece. 11. A tool assembly according to claim 9 in which each said jaw segment comprises a key portion respectively, each said key portion being receivable in a keyway in the back plate for guiding each said jaw segment along the predetermined path therefor respectively. 12. A tool assembly according to claim 9 in which each said jaw segment is movable along the predetermined path therefor by at least one motive means. 13. A method for forming a workpiece with an initial outer profile at least partially defined by an outer surface thereof at an initial position into a housing with a non-round design outer profile at least partially defined by the outer surface at a design position reduced from the initial position thereof, the method comprising: (a) providing a ring portion comprising a bore therein defined by an inner surface;(b) providing an insert portion comprising: a back plate;a plurality of jaw segments, each said jaw segment extending between a back end thereof engageable with the back plate and a front end distal to the back plate;said jaw segments being divided into a plurality of groups, each said group comprising at least two of said jaw segments;each said jaw segment comprising an internal surface for engaging the outer surface and an at least partially tapered external surface for engagement with the inner surface of the ring portion;the jaw segments being movable along respective substantially straight predetermined paths between a first condition, in which the internal surfaces of the jaw segments at least partially define an opening in which the workpiece is at least partially positionable, and a second condition, in which the internal surfaces of the jaw segments substantially define the design position of the outer surface;each said predetermined path extending at an angle normal to said internal surface of the respective jaw segment therefor;the predetermined paths being aligned respectively with a plurality of preselected end points therefor, said preselected end points being respective points of convergence of said predetermined paths in the respective groups of jaw segments, and each of the preselected end points being located physically and spatially separate from each other;for each of the preselected end points, a radius centered thereon being substantially coincident with a portion of the design outer profile that is substantially defined by the internal surfaces of the jaw segments in the group associated therewith, when the jaw segments are in the second condition;the ring portion being movable relative to the insert portion between an open condition, in which the ring portion is positioned distal to the back plate, and a closed condition, in which the ring portion is positioned proximal to the back plate;(c) positioning at least parts of the jaw segments in the bore of the ring portion;(d) moving the jaw segments to the first condition;(e) inserting the workpiece in the opening; and(f) moving the ring portion toward the back plate to engage the inner surface of the ring portion with the external surfaces of the jaw segments, to urge the jaw segments inwardly along the respective predetermined paths to the second condition such that the internal surfaces of the jaw segments engage substantially the entire outer surface of the workpiece and move the outer surface from the initial position to the design position, reducing the initial outer profile to the design outer profile and forming the workpiece into the housing. 14. A method according to claim 13 in which, in step (f), the movement of the jaw segments from the first condition toward the second condition causes substantially uniform movement of the outer surface of the workpiece. 15. A method according to claim 13 in which each said jaw segment is guided along the predetermined path therefor by a key portion thereof receivable in a keyway in the back plate. 16. A method according to claim 13 in which each said jaw segment is moved along the predetermined path therefor by at least one motive means. 17. A tool assembly for forming a workpiece with an initial outer profile at least partially defined by an outer surface thereof at an initial position into a housing with a non-round design outer profile at least partially defined by the outer surface at a design position reduced from the initial position thereof, the tool assembly comprising: a ring portion comprising a bore therein at least partially defined by an inner surface;an insert portion comprising: a back plate;a plurality of elongate jaw segments, each said jaw segment extending between a back end thereof engaged with the back plate and a front end thereof distal to the back plate;said jaw segments being divided into a plurality of groups, each said group comprising at least two of said jaw segments;each said jaw segment comprising an internal surface for engaging the outer surface and an at least partially tapered external surface for sliding engagement with the inner surface of the ring portion;the jaw segments being movable along respective substantially straight predetermined paths between a first condition, in which the internal surfaces of the jaw segments at least partially define an opening in which the workpiece is receivable, and a second condition, in which the internal surfaces of the jaw segments substantially define the design position of the outer surface;each said predetermined path extending at an angle normal to said internal surface of the respective jaw segment therefor;the predetermined paths being aligned with a plurality of preselected end points, respectively, said preselected end points being respective points of convergence of said predetermined paths for the jaw segments in the respective groups of jaw segments, and each of the preselected end points being located physically and spatially separate from each other;each said group being associated with a selected one of said preselected end points, each said jaw segment in each said group being movable along the predetermined path therefor toward the selected one of the preselected end points for the group thereof as the jaw segments are moved from the first condition to the second condition;for each of the preselected end points, a radius centered thereon being substantially coincident with a portion of the design outer profile that is substantially defined by the internal surfaces of the jaw segments in the group associated with each said preselected end point respectively, when the jaw segment are in the second condition;the jaw segments being at least partially receivable in the bore of the ring portion;the insert portion and the ring portion being movable relative to each other between an open condition of the tool assembly, in which the back plate is positioned distal to the ring portion, and a closed condition of the tool assembly, in which the back plate is positioned proximal to the ring portion; andwhen the ring portion and the insert portion move from the open condition to the closed condition, the inner surface of the ring portion urges the jaw segments inwardly from the first condition to the second condition, causing the jaw segments to engage substantially the entire outer surface and to move the outer surface from the initial position to the design position, reducing the initial outer profile to the design outer profile and forming the workpiece into the housing. 18. A tool assembly according to claim 17 in which movement of the jaw segments from the first condition toward the second condition causes substantially uniform movement of substantially the entire outer surface of the workpiece. 19. A tool assembly according to claim 17 in which each said jaw segment comprises a key portion respectively, each said key portion being receivable in a keyway in the back plate for guiding each said jaw segment along the predetermined path therefor respectively. 20. A tool assembly according to claim 17 in which each said jaw segment is movable along the predetermined path therefor by at least one motive means. 21. A method for forming a workpiece with an initial outer profile at least partially defined by an outer surface thereof at an initial position into a housing with a non-round design outer profile at least partially defined by the outer surface at a design position reduced from the initial position thereof, the method comprising: (a) providing a ring portion comprising a bore therein defined by an inner surface;(b) providing an insert portion comprising: a back plate;a plurality of jaw segments, each said jaw segment extending between a back end thereof engageable with the back plate and a front end distal to the back plate;said jaw segments being divided into a plurality of groups, each said group comprising at least two jaw segments;each said jaw segment comprising an internal surface for engaging the outer surface and an at least partially tapered external surface for engagement with the inner surface of the ring portion;the jaw segments being movable along respective substantially straight predetermined paths between a first condition, in which the internal surfaces of the jaw segments at least partially define an opening in which the workpiece is at least partially positionable, and a second condition, in which the internal surfaces of the jaw segments substantially define the design position of the outer surface;each said predetermined path extending at an angle normal to said internal surface of the respective jaw segment therefor;the predetermined paths being aligned respectively with a plurality of preselected end points therefor, said preselected end points being respective points of convergence of said predetermined paths for the jaw segments in the respective groups of jaw segments, and each of the preselected end points being located physically and spatially separate from each other;each said group being associated with a selected one of said preselected end points;for each of the preselected end points, a radius centered thereon being substantially coincident with a portion of the design outer profile that is substantially defined by the internal surfaces of the jaw segments in the group associated therewith, when the jaw segments are in the second condition;the insert portion and the ring portion being movable relative to each other between an open condition, in which the back plate is positioned distal to the ring portion, and a closed condition, in which the back plate is positioned proximal to the ring portion;(c) positioning at least parts of the jaw segments in the bore of the ring portion;(d) moving the jaw segments to the first condition;(e) inserting the workpiece in the opening; and(f) moving the back plate and ring portion toward each other to engage the inner surface of the ring portion with the external surfaces of the jaw segments, to urge the jaw segments inwardly along the respective predetermined paths to the second condition such that the internal surfaces of the jaw segments engage substantially the entire outer surface of the workpiece and move the outer surface from the initial position to the design position, reducing the initial outer profile to the design outer profile and forming the workpiece into the housing. 22. A method according to claim 21 in which, in step (f), the movement of the jaw segments from the first condition toward the second condition causes substantially uniform movement of the outer surface of the workpiece. 23. A method according to claim 21 in which each said jaw segment is guided along the predetermined path therefor by a key portion thereof receivable in a keyway in the back plate. 24. A method according to claim 21 in which each said jaw segment is moved along the predetermined path therefor by at least one motive means.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (30)
Wilfried Sussmilch DE; Mick Wadsworth GB; Lei Boure NL, Apparatus and method for encasing an object in a case.
Brooks Thomas W. (Springfield MO) Masseth David A. (Centerville OH) Malecka Joseph R. (Kettering OH) Stiver C. Edward (Ocala FL) Pearson Charles S. (Ocala FL) Fox James D. (Westchester OH), Automatic crimper and crimping die.
Umin Gerald ; Nowka Erich James ; Umin Edward A. ; Albrecht Michael Blake ; Morrow Timothy D. ; Harold Vincent,CAX, Exhaust treatment device for automotive vehicle having one-piece housing with integral inlet and outlet gas shield diffusers.
Yamashita Sachihiro (Hidaka JPX) Enomoto Masayuki (Sayama JPX) Ishibashi Ichiro (Iruma JPX) Ichinose Kiyohiro (Moroyama JPX) Nakamura Mitsuki (Niiza JPX), Method and apparatus for attaching a ring-like part to the outer periphery of columnar material.
Wirth Georg (Kirchheim DEX) Worner Siegfried (Esslingen DEX) Zacke Peter (Albershausen DEX), Method for uniting an exhaust treatment body with its housing and an exhaust treatment apparatus.
Thomas A. Collins ; Gregory Eisenstock ; Robert J. Locker ; Robert A. Morse, Method of assembling a catalytic converter for use in an internal combustion engine.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.