Abrasive filter assembly and methods of making same
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B24D-011/00
출원번호
US-0228896
(2005-09-16)
등록번호
US-7393269
(2008-07-01)
발명자
/ 주소
Rambosek,Thomas W.
Sanders, Jr.,Rufus C.
출원인 / 주소
3M Innovative Properties Company
인용정보
피인용 횟수 :
7인용 특허 :
62
초록▼
An abrasive filter assembly with an integral dust collection system. The abrasive filter assembly comprises a porous element, a first filter media with channels, a second filter media, and an attachment interface layer. The openings of the porous element cooperate with the channels to allow the flow
An abrasive filter assembly with an integral dust collection system. The abrasive filter assembly comprises a porous element, a first filter media with channels, a second filter media, and an attachment interface layer. The openings of the porous element cooperate with the channels to allow the flow of particles from the porous element to the second filter media. The porous element can be an abrasive article or an attachment surface for an abrasive article.
대표청구항▼
What is claimed is: 1. An abrasive filter assembly comprising: a porous element comprising a first surface, a second surface opposite said first surface, and a plurality of openings extending from said first surface to said second surface of said porous element; a first filter media having a first
What is claimed is: 1. An abrasive filter assembly comprising: a porous element comprising a first surface, a second surface opposite said first surface, and a plurality of openings extending from said first surface to said second surface of said porous element; a first filter media having a first surface and a second surface opposite said first surface, said first surface of said first filter media proximate said second surface of said porous element, said first filter media comprising a plurality of discrete channels formed by a plurality of channel sidewalls, said channels extending from said first surface of said first filter media to said second surface of said first filter media, a second filter media having a first surface and a second surface opposite said first surface, said first surface of said second filter media proximate said second surface of said first filter media; an attachment interface layer proximate said second surface of said second filter media; and at least one cavity located between said first surface of said first filter media and said attachment interface layer, said cavity comprises an open area of at least 1 square centimeter; wherein said openings cooperate with said channels and said cavity to allow the flow of particles from said first surface of said porous element to said second filter media. 2. The abrasive filter assembly of claim 1 wherein said porous element comprises a porous abrasive layer. 3. The abrasive filter assembly of claim 2 wherein said porous element porous abrasive layer is selected from the group consisting of a perforated coated abrasive, a screen abrasive, and a nonwoven abrasive. 4. The abrasive filter assembly of claim 1 wherein said porous element is an abrasive attachment interface selected from the group consisting of a loop portion of a two-part mechanical engagement system, a hook portion of a two-part mechanical engagement system, an adhesive attachment surface, and combinations thereof. 5. The abrasive filter assembly of claim 1 wherein said first filter media has a height in the range of 1 to 20 millimeters. 6. The abrasive filter assembly of claim 1 wherein said channel sidewalls comprise polymer film. 7. The. abrasive filter assembly of claim 6 wherein said polymer film comprises a polymer selected from the group consisting of polypropylene, polyethylene, polytetrafluoroethylene, and combinations thereof. 8. The abrasive filter assembly of claim 6 wherein said polymer film comprises a structured surface. 9. The abrasive filter assembly of claim 6 wherein said polymer film comprises an electrostatic charge. 10. The abrasive filter assembly of claim 1 wherein said plurality of channels comprise an average effective circular diameter of at least 0.1 millimeter. 11. The abrasive filter assembly of claim 1 wherein said second filter media comprises a nonwoven filter. 12. The abrasive filter assembly of claim 11 wherein said nonwoven comprises polyolefin fibers and has a basis weight in the range of 10 to 200 grams per square meter. 13. The abrasive filter assembly of claim 1 wherein said first filter media comprises said at least one cavity. 14. The abrasive filter assembly of claim 1 further comprising a cavity layer comprising said at least one cavity. 15. The abrasive filter assembly of claim 1 wherein said at least one cavity comprises an effective circular diameter of at least 5 millimeters. 16. The abrasive filter assembly of claim 1 wherein said at least one cavity comprises an effective circular diameter of at least 10 millimeters. 17. The abrasive filter assembly of claim 1 wherein said at least one cavity is at least partially filled with a filter media. 18. The abrasive filter assembly of claim 1 further comprising a third filter media positioned between said porous element and said first filter media. 19. The abrasive filter assembly of claim 1 wherein said attachment interface layer is a pressure sensitive adhesive. 20. The abrasive filter assembly of claim 1 wherein said attachment interface comprises a loop portion or a hook portion of a two-part mechanical engagement system. 21. A method of abrading a surface comprising contacting said surface with an abrasive filter assembly according to claim 2, and relatively moving said abrasive filter assembly and said surface to mechanically modify said surface. 22. An abrasive filter assembly comprising: a porous element comprising a first surface, a second surface opposite said first surface, and a plurality of openings extending from said first surface to said second surface of said porous element; a first filter media having a first surface and a second surface opposite said first surface, said first surface of said first filter media affixed to said second surface of said porous element, said first filter media comprising a plurality of channels formed by a plurality of polymer films configured as a stack and affixed to one another, said channels extending from said first surface of said first filter media to said second surface of said first filter media; a second filter media having a first surface and a second surface opposite said first surface, said first surface of said second filter media proximate said second suiface of said first filter media; an attachment interface layer proximate said second surface of said second filter media; and at least one cavity located between said first surface of said first filter media and said attachment interface layer; wherein said openings cooperate with said channels and said cavity to allow the flow of particles from said first surface of said porous element to said second filler media. 23. The abrasive filter assembly of claim 22 wherein said porous element comprises a porous abrasive layer. 24. The abrasive filter assembly of claim 23 wherein said porous element porous abrasive layer is selected from the group consisting of a perforated coated abrasive, a screen abrasive, and a nonwoven abrasive. 25. The abrasive filter assembly of claim 22 wherein said porous element is an abrasive attachment interface selected from the group consisting of a loop portion of a two-part mechanical engagement system, a hook portion of a two-part mechanical engagement system, an adhesive attachment surface, and combinations thereof. 26. The abrasive filter assembly of claim 22 wherein said first filter media has a height in therange of 1 to 20 millimeters. 27. The abrasive filter assembly of claim 22 wherein said at least one cavity comprises an effective circular diameter of at least 2 millimeters. 28. The abrasive filter assembly of claim 22 wherein said at least one cavity comprises an effective circular diameter of at least 10 millimeters. 29. The abrasive disk of claim 22 wherein said plurality of polymer films comprises a polymer selected from the group consisting of polypropylene, polyethylene, polytetrafluoroethylene, and combinations thereof. 30. The abrasive disk of claim 22 wherein said polymer film comprises a structured surface. 31. The abrasive disk of claim 22 wherein said polymer film comprises an electrostatic charge. 32. The abrasive disk of claim 22 wherein said plurality of channels comprise an average effective circular diameter of at least 0.1 millimeter. 33. A method of abrading a surface comprising contacting said surface with an abrasive filter assembly according to claim 23, and relatively moving said abrasive filter assembly and said surface to mechanically modify said surface.
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이 특허에 인용된 특허 (62)
Barry John L. (North St. Paul MN) Bell Donald R. (White Bear Township ; Ramsey County MN) Chesley Jason A. (Hudson WI) Rude Harold E. (Roseville MN) Sheffield William F. (Oakdale MN) Slama David F. (, Abrading apparatus.
Ott Ronald L. (Lake Elmo MN) Gorman Michael R. (White Bear Lake MN) Becker Dennis L. (Vadnais Heights MN) Folske Donald W. (Oakdale MN) Melbye William L. (Minneapolis MN) Nestegard Susan K. (Woodbury, Coated abrasive sheet material with loop material for attachment incorporated therein.
Ott Ronald L. (Lake Elmo MN) Gorman Michael R. (White Bear Lake MN) Becker Dennis L. (Vadnais Heights MN) Folske Donald W. (Oakdale MN) Melbye William L. (Minneapolis MN) Nestegard Susan K. (Woodbury, Coated abrasive sheet material with loop material for attachment incorporated therein.
Chilton Douglas L. (6729 Bridge St. Fort Worth TX 76112) Chilton Cher I. (7300 Brentwood Stair Rd. Fort Worth TX 76112), Dust control system for an abrasive grinder.
Gorman Michael R. (White Bear Lake MN) Becker Dennis L. (Vadnais Heights MN) Folske Donald W. (Oakdale MN) Melbye William L. (Maplewood MN) Nestegard Susan K. (Woodbury MN) Ott Ronald L. (Lake Elmo M, Method for making a sheet of loop material.
Chesley Jason A. (Hudson WI) Bell Donald R. (White Bear Township ; County of Ramsey MN) Rude Harold E. (Roseville MN) Sheffield William F. (Oakdale MN) Slama David F. (Vadnais Heights MN) Stephens Al, Method of making an abrasive article.
Chesley Jason A. (St. Croix WI) Bell Donald R. (White Bear Township ; Ramsey County MN) Rude Harold E. (Roseville MN) Sheffield William F. (Oakdale MN) Slama David F. (Vadnais Heights MN) Stephens Al, Method of making an abrasive article.
Gorman Michael R. (St. Paul MN) Becker Dennis L. (St. Paul MN) Folske Donald W. (St. Paul MN) Melbye William L. (St. Paul MN) Nestegard Susan K. (St. Paul MN) Ott Ronald L. (St. Paul MN), Sheet of loop material, and garments having such loop material incorporated therein.
Beretta Mario,ITX ; Maggioni Pierluigi,ITX, Sheet-like structure with surface protrusions for providing spacing, grip-enhancing, draining elements and the like.
Woo, Edward J.; Rambosek, Thomas W.; Angadjivand, Seyed A.; Donovan, Mary B.; Sanders, Jr., Rufus C.; Chou, Yeun Jong, Abrasive article and method of making and using the same.
Seth, Anuj; Dinh-Ngoc, Julie M.; Cheruvari Kottieth Raman, Vivek; Krupa, Paul A.; Garrah, James M., Abrasive article having a non-uniform distribution of openings.
Seth, Anuj; Dinh-Ngoc, Julie M.; Raman, Vivek Cheruvari Kottieth; Krupa, Paul A.; Garrah, James M., Abrasive article having a non-uniform distribution of openings.
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