IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0104286
(2002-03-22)
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발명자
/ 주소 |
- Udivich, Joseph
- Dessolle, Bernard
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출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
12 인용 특허 :
20 |
초록
▼
A pallet, and a system suitable for use with the pallet, for supporting and transporting gas cylinders in an inclined position. The pallet includes a supporting base frame. A pair of horizontally spaced, upstanding and parallel side frame members are rigidly secured to the base frame. A plurality of
A pallet, and a system suitable for use with the pallet, for supporting and transporting gas cylinders in an inclined position. The pallet includes a supporting base frame. A pair of horizontally spaced, upstanding and parallel side frame members are rigidly secured to the base frame. A plurality of cylinder carriers or tubes are positioned between the side frame members. The carriers are disposed in an inclined position at an angle α. The system includes a load-supporting bed forming part of a vehicle. A plurality of longitudinally spaced-apart and laterally extending bays are arranged in two longitudinally extending rows disposed on the bed. A walkway is disposed on the bed and raised therefrom, the walkway extends between the two longitudinally extending rows and a plurality of pallets. The system may also include a latching arrangement that engages the base of the pallets to retain the pallets in its respective bay during transportation.
대표청구항
▼
A pallet, and a system suitable for use with the pallet, for supporting and transporting gas cylinders in an inclined position. The pallet includes a supporting base frame. A pair of horizontally spaced, upstanding and parallel side frame members are rigidly secured to the base frame. A plurality of
A pallet, and a system suitable for use with the pallet, for supporting and transporting gas cylinders in an inclined position. The pallet includes a supporting base frame. A pair of horizontally spaced, upstanding and parallel side frame members are rigidly secured to the base frame. A plurality of cylinder carriers or tubes are positioned between the side frame members. The carriers are disposed in an inclined position at an angle α. The system includes a load-supporting bed forming part of a vehicle. A plurality of longitudinally spaced-apart and laterally extending bays are arranged in two longitudinally extending rows disposed on the bed. A walkway is disposed on the bed and raised therefrom, the walkway extends between the two longitudinally extending rows and a plurality of pallets. The system may also include a latching arrangement that engages the base of the pallets to retain the pallets in its respective bay during transportation. ; placing said pre-specified shape of said fibers in a container, said container being placed on an arrangement that may be vibrated; combining components for use as a first fluid mixture suitable for coating said pre-specified shape and, upon curing, forming a solid; covering said pre-specified shape with said first fluid mixture to establish a second fluid mixture containing said pre-specified shape and said first fluid mixture; vibrating said container; combing said second fluid mixture with a comb, wherein said comb has a plurality of tines bent at an oblique angle at the end of said tines, and wherein said combining provides a combing action in both the plane of said second fluid mixture and a plane generally perpendicular thereto, and wherein said combing enables said first fluid mixture to fully coat said pre-specified shape of said fibers while maintaining said pre-specified shape of said fibers as a continuous, evenly distributed layer within said second fluid mixture. 6. The method of claim 5 which said used structure is carpet. 7. The method of claim 6 which said separating of said fibers from said carpet comprises: cutting said carpet into strips: processing said strips by a method selected from the group consisting essentially of: shredding, chopping, hammering, screening and any combination thereof, wherein said processing separates said strips into components; removing non-fibrous components from said components, said non-fibrous components selected from the group consisting essentially of: latex, calcium carbonate, and any combination thereof, wherein said removing of non-fibrous components yields a tangled mass essentially comprising only said fibers; and carding said tangled mass of said fibers to establish said pre-specified shape. 8. The method of claim 7 in which said new structure is a cement board. 9. The method of claim 8 in which said first fluid mixture comprises: Portland cement; fine aggregate; water; at least one dispersing agent; and at least one water reducer. 10. The method of claim 8 in which said first fluid mixture comprises components in the following proportions: 500 grams of Type I-II Portland cement; 1000 grams fine aggregate; 230 cc water; 2 grams dispersing agent; and 4 mL high-range water reducer. 11. A method of manufacturing a new structure reinforced with fibers, comprising: separating said fibers from a used structure for recycling said fibers to said new structure; forming said fibers into a pre-specified shape; placing said pre-specified shape of said fibers in a container, said container being placed on an arrangement that may be vibrated; combining components for use as a first fluid mixture suitable for coating said pre-specified shape and, upon curing, forming a solid; covering said pre-specified shape with said first fluid mixture to establish a second fluid mixture containing said pre-specified shape and said first fluid mixture; vibrating said container; combing said second fluid mixture with a comb, wherein said comb has a plurality of tines bent at an oblique angle at the end of said tines, and wherein said combining provides a combing action in both the plane of said second fluid mixture and a plane generally perpendicular thereto, and wherein said combing enables said first fluid mixture to fully coat said pre-specified shape of said fibers while maintaining said pre-specified shape of said fibers as a continuous, evenly distributed layer within said second fluid mixture; transferring said combed, vibrated second fluid mixture to a mold having a top and a bottom portion each incorporating drain holes for passage of water, wherein said mold is lined along at least said top and bottom with porous filter material that permits passage of water from said combed, vibrated second fluid mixture while retaining solids contained therein; closing said mold by affixing said top portion; compressing said combed, vibrat ed second fluid mixture to remove excess water; vibrating said mold for a first pre-specified time to assist in consolidation of said combed, vibrated, second fluid mixture; allowing said compressed, consolidated second fluid mixture in said mold to cure for a pre-specified time to form a new structure; and removing said new structure from said mold upon expiration of said pre-specified time. 12. The method of claim 11 in which said used structure is carpet. 13. The method of claim 12 in which said separating of said fibers from said carpet comprises: cutting said carpet into strips: processing said strips by a method selected from the group consisting essentially of: shredding, chopping, hammering, screening and any combination thereof, wherein said processing separates said strips into components; removing non-fibrous components from said components, said non-fibrous components selected from the group consisting essentially of: latex, calcium carbonate, and any combination thereof, wherein said removing of non-fibrous components yields a tangled mass essentially comprising only said fibers; and carding said tangled mass of said fibers to establish said pre-specified shape. 14. The method of claim 13 which said new structure is a cement board. 15. The method of claim 14 in which said first fluid mixture comprises: Portland cement; fine aggregate; water; at least one dispersing agent; and at least one water reducer. 16. The method of claim 14 in which said first fluid mixture comprises components in the following proportions: 500 grams of Type I-II Portland cement; 000 grams fine aggregate; 230 cc water; 2 grams dispersing agent; and 4 mL high-range water reducer.
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