Half closed thermoplastic honeycomb, their production process and equipment to produce
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B32B-003/00
B32B-003/12
출원번호
US-0719748
(2005-11-21)
등록번호
US-8795806
(2014-08-05)
우선권정보
EP-04447255 (2004-11-19)
국제출원번호
PCT/BE2005/000168
(2005-11-21)
§371/§102 date
20070518
(20070518)
국제공개번호
WO2006/053407
(2006-05-26)
발명자
/ 주소
Pflug, Jochen
Verpoest, Ignace
출원인 / 주소
K.U. Leuven Research & Development
대리인 / 주소
Clark & Elbing LLP
인용정보
피인용 횟수 :
2인용 특허 :
14
초록▼
A half closed thermoplastic folded honeycomb structure is described which is produced from a continuous web of material by plastic deformation perpendicular to the plane of the material to thereby form half-hexagonal cell walls and small connecting areas. By folding in the direction of conveyance th
A half closed thermoplastic folded honeycomb structure is described which is produced from a continuous web of material by plastic deformation perpendicular to the plane of the material to thereby form half-hexagonal cell walls and small connecting areas. By folding in the direction of conveyance the cell walls meet to thereby form the honeycomb structure.
대표청구항▼
1. A folded honeycomb, formed from a plurality of cells arranged in rows, comprising: cells comprising two 3D-structures forming cell halves, the cell halves adjoining each other in the longitudinal direction of each cell to form lateral cell walls which adjoin one another in the cross-sectional for
1. A folded honeycomb, formed from a plurality of cells arranged in rows, comprising: cells comprising two 3D-structures forming cell halves, the cell halves adjoining each other in the longitudinal direction of each cell to form lateral cell walls which adjoin one another in the cross-sectional form of a ring and, the cells being bounded toward first and second opening sides of each cell by covering-layer planes whereby the cells are each bridged completely in one or other of the covering-layer planes; the 3D-structures are formed by plastic deformation from uncut flat body along with connecting areas produced by plastic deformation, the 3D-structures being folded together to form the lateral walls, the connecting areas closing the cells at the first and second opening sides of the cells, the connecting areas being located in one or other of the covering-layer planes in the folded honeycomb, and connecting in one of said covering-layer planes the two cell halves of a cell and in the other covering-layer plane adjacent cell halves of two neighboring cells, each cell has an opening defined by the lateral cell walls covered by a first covering-layer; each cell has a bottom area defined by the lateral cell walls and covered by a second covering-layer; each cell is surrounded by four adjacent cells having openings covered by the second covering-layer opposite the first covering-layer, all cells extending between the two covering-layers; the honeycomb, in each covering-layer plane, has alternate rows of openings and bottom areas, the folded honeycomb being a lightweight sandwich panel after lamination or direct extrusion of the covering layers on both sides of the honeycomb core. 2. The folded honeycomb of claim 1, wherein the 3D-structures are polygonally, sinusoidally or arcuately shaped regions. 3. The folded honeycomb according to claim 1 or 2, in which at least a part of the cell walls are wholly or partly permanently connected to one another. 4. The folded honeycomb according to claim 1, in which the flat body is formed from a thermoplastic polymer, a fiber composite material or a plastically deformable paper or metal sheet. 5. A process for producing a folded honeycomb from a flat body composed of a plastically deformable material, comprising: a) plastically deforming the flat body to form cell halves having 3D-structures and connection areas therein, the connection areas being formed between 3D-structures;b) folding the 3D-structures towards each other to form cells made from the cell halves, the longitudinal ends of the cells being bounded toward first and second opening sides by covering-layer planes, the cell halves adjoining each other in the longitudinal direction of each cell to form lateral cell walls, the cell walls adjoining one another in the cross-sectional form of a ring so that a cell wall of one cell adjoins the cell wall of another cell in a honeycomb structure, the connecting areas closing the cells at the first and second opening sides of the cells, the connecting areas being located in one or other of the covering-layer planes in the folded honeycomb, and connecting in one of said covering-layer planes the two halves of a cell and in the other covering-layer plane adjacent cell halves of two neighboring cells; each cell has an opening defined by the lateral cell walls covered by a first covering-layer; each cell has a bottom are defined by the lateral cell walls and covered by a second covering-layer; each cell is surrounded by four adjacent cells having openings covered by the second covering-layer opposite the first covering-layer, all cells extending between the two covering-layers; the honeycomb, in each covering-layer plane, has alternate rows of openings and bottom areas, andc) processing the folded honeycomb to a lightweight sandwich panel after lamination or direct extrusion of the covering layers on both sides of the honeycomb core. 6. The process according to claim 5, wherein the 3D-structures are polygonally, sinusoidally or arcuately shaped regions. 7. The process according to claim 5 or 6, wherein at least a part of mutually contacting surface areas and/or edges of the cells are firmly connected to one another. 8. The process according to claim 5, wherein the deformable material is a thermoplastic polymer, a fiber composite material or a plastically deformable paper or metal sheet. 9. The process according to claim 5, wherein the deforming to form the 3D-structures is carried out by means of a non-cutting rotation process. 10. The process according to claim 9, which the deformation is carried out by means of a rotation vacuum thermoforming process. 11. An equipment for producing a folded honeycomb from a flat body composed of a plastically deformable material, comprising: a) means for plastically deforming the flat body to form cell halves made of 3D-structures and connection areas therein, the connection areas being formed between the 3D-structures;b) means for folding the 3D-structures towards each other to form cells from the cell halves, the cell halves adjoining one another in the longitudinal direction of each cell to form lateral cell walls in the cross-sectional form of a ring so that a cell wall of one cell adjoins the cell wall of another cell in a honeycomb structure, the longitudinal ends of the cells being bounded toward first and second opening sides, the connecting areas closing the cells at the first and second opening sides of the cells, the connecting areas being located in one or other of the covering-layer planes in the folded honeycomb, and connecting in one of said covering-layer planes the two cell halves of a cell and in the other covering-layer plane adjacent cell halves of two neighboring cells; each cell has an opening defined by the lateral cell walls covered by a first covering-layer; each cell has a bottom area defined by the lateral cell walls and covered by a second covering-layer; each cell is surrounded by four adjacent cells having openings covered by the second covering-layer opposite the first covering-layer, all cells extending between the two covering-layers; the honeycomb, in each covering-layer plane, has alternate rows of openings and bottom areas and;c) means for processing the folded honeycomb to a lightweight sandwich panel after lamination or direct extrusion of the covering layers on both sides of the honeycomb core. 12. Equipment according to claim 11, wherein the means for plastically deforming the flat body includes a first roller with a surface profile to form the 3D-structures. 13. Equipment according to claim 12, wherein the means for folding includes a second roller located downstream of the first roller and turning at a lower speed than the first roller. 14. Equipment according to claim 12 or 13, wherein the means for plastically deforming the flat body includes a second roller and a guide between the first and second roller. 15. Equipment according to claim 12, wherein the first roller is adapted as a rotation vacuum thermoforming roller. 16. Equipment according to claim 11, further comprising a core gluing or welding and lamination unit.
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이 특허에 인용된 특허 (14)
Duffy Joseph J. (Newark DE) Lin Pui-Yan (Hockessin DE) Marin Robert A. (Hockessin DE), Apparatus and process for cutting a honeycomb half-cell structure into sheets.
Fell Barry M. (Hummelstown PA), Continuous process for the preparation of unitary thermoplastic honeycomb containing areas with different physical prope.
Beauvois,Jean Claude; Giang,Son Ha; Lebain,Gilles; Werlen,Etienne, Method and device for manufacturing a structured packing corrugation, and corresponding fluid-treatment apparatus.
Bodnar, Andrea G.; Chiu, Choy-Pik; Gold, Joseph D.; Inokuma, Margaret; Murai, James T.; West, Michael D., Methods and materials for the growth of primate-derived primordial stem cells in feeder-free culture.
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