Method and apparatus for producing ceramic molding
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B28B-003/24
B28B-003/20
B30B-011/22
B30B-011/26
출원번호
US-0120732
(2009-09-17)
등록번호
US-8834783
(2014-09-16)
우선권정보
JP-2008-248465 (2008-09-26)
국제출원번호
PCT/JP2009/066310
(2009-09-17)
§371/§102 date
20110324
(20110324)
국제공개번호
WO2010/035699
(2010-04-01)
발명자
/ 주소
Soga, Wataru
출원인 / 주소
Hitachi Metals, Ltd.
대리인 / 주소
Sughrue Mion, PLLC
인용정보
피인용 횟수 :
0인용 특허 :
4
초록▼
A molding apparatus for producing a ceramic molding comprising a material-flowing path, a molding die disposed at one end of the material-flowing path, and a pressurizing means for extrusion-molding the molding material; the material-flowing path comprising pluralities of porous plates for passing t
A molding apparatus for producing a ceramic molding comprising a material-flowing path, a molding die disposed at one end of the material-flowing path, and a pressurizing means for extrusion-molding the molding material; the material-flowing path comprising pluralities of porous plates for passing the molding material and a screen fixed therebetween, and a method for producing a ceramic molding using this apparatus.
대표청구항▼
1. A method for producing a ceramic molding using a molding apparatus comprising a material-flowing path and a molding die disposed at one end of said material-flowing path, comprising extrusion-molding a molding material charged into said material-flowing path from said molding die, through plurali
1. A method for producing a ceramic molding using a molding apparatus comprising a material-flowing path and a molding die disposed at one end of said material-flowing path, comprising extrusion-molding a molding material charged into said material-flowing path from said molding die, through pluralities of porous plates and a screen fixed therebetween in said material-flowing path, wherein said pluralities of porous plates are disposed in the material-flowing path such that the pores of the porous plates on opposite sides of the screen are substantially aligned with respect to center axes. 2. The method for producing a ceramic molding according to claim 1, wherein said molding material is obtained by blending at least ceramic materials, a binder and water, the opening width of said screen being 2-10 times the maximum particle size of said ceramic materials. 3. The method for producing a ceramic molding according to clam 1, wherein pluralities of said porous plates have a pore diameter 1/10 or less of the inner diameter of said material-flowing path, and an opening area ratio 50% or more of the cross section area of said material-flowing path. 4. The method for producing a ceramic molding according to claim 1, wherein a porous plate on the downstream side of said material-flowing path among pluralities of said porous plates has a smaller opening area ratio than that of a porous plate on the upstream side, wherein the opening area ratio of the porous plates is determined by (A1/A0)×100, wherein A0 is the area of each porous plate, and A1 is the total area of pores in each porous plate. 5. The method for producing a ceramic molding according to claim 1, wherein said ceramic molding has a honeycomb structure. 6. A method for producing a ceramic molding using a molding apparatus comprising a material-flowing path and a molding die disposed at one end of said material-flowing path, comprising extrusion-molding a molding material charged into said material-flowing path from said molding die, through pluralities of porous plates and pluralities of laminated screens fixed therebetween in said material-flowing path, wherein said pluralities of porous plates are disposed in the material-flowing path such that the pores of the porous plates on opposite sides of the laminated screens are substantially aligned with respect to center axes. 7. The method for producing a ceramic molding according to claim 6, wherein a screen on the downstream side of said material-flowing path among said pluralities of screens has a larger opening ratio than that of a screen on the upstream side. 8. The method for producing a ceramic molding according to claim 6, wherein said molding material is obtained by blending at least ceramic materials, a binder and water, the opening width of said screen being 2-10 times the maximum particle size of said ceramic materials. 9. The method for producing a ceramic molding according to claim 6, wherein pluralities of said porous plates have a pore diameter 1/10 or less of the inner diameter of said material-flowing path, and an opening area ratio 50% or more of the cross section area of said material-flowing path. 10. The method for producing a ceramic molding according to claim 6, wherein a porous plate on the downstream side of said material-flowing path among pluralities of said porous plates has a smaller opening area ratio than that of a porous plate on the upstream side, wherein the opening area ratio of the porous plates is determined by (A1/A0)×100, wherein A0 is the area of each porous plate, and A1 is the total area of pores in each porous plate. 11. The method for producing a ceramic molding according to claim 6, wherein said ceramic molding has a honeycomb structure. 12. A molding apparatus comprising a material-flowing path, a molding die disposed at one end of said material-flowing path, and a pressurizing means for extrusion-molding said molding material; said material-flowing path comprising pluralities of porous plates for passing said molding material and a screen fixed therebetween, wherein said pluralities of porous plates are disposed in the material-flowing path such that the pores of the porous plates on opposite sides of the screen are substantially aligned with respect to center axes. 13. The molding apparatus for producing a ceramic molding according to claim 12, wherein said molding die has honeycomb-shaped molding grooves. 14. A molding apparatus comprising a material-flowing path, a molding die disposed at one end of said material-flowing path, and a pressurizing means for extrusion-molding said molding material; said material-flowing path comprising pluralities of porous plates for passing said molding material and pluralities of laminated screens fixed therebetween, wherein said pluralities of porous plates are disposed in the material-flowing path such that the pores of the porous plates on opposite sides of the laminated screens are substantially aligned with respect to center axes. 15. The molding apparatus for producing a ceramic molding according to claim 14, wherein said molding die has honeycomb-shaped molding grooves.
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이 특허에 인용된 특허 (4)
Trott Delano B. (Rowley MA), Flowable material passage with interposable slide member.
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