A joist comprised of at least one cold-formed steel elongated chord member; a cold-formed steel web having a plurality of web members and means for securing said web to said chord member. A plurality of joists are generally for use in a support system for a platform or a deck in the construction of
A joist comprised of at least one cold-formed steel elongated chord member; a cold-formed steel web having a plurality of web members and means for securing said web to said chord member. A plurality of joists are generally for use in a support system for a platform or a deck in the construction of floors and roofs. The support system is of particular use in a composite floor and roof systems.
대표청구항▼
What is claimed as the invention is: 1. An upper chord bearing joist comprising: an upper elongate chord member being cold-formed from a unitary piece of sheet steel and including an upper bearing portion integrally formed with at least one lower bearing extension so as to produce a rigid member, t
What is claimed as the invention is: 1. An upper chord bearing joist comprising: an upper elongate chord member being cold-formed from a unitary piece of sheet steel and including an upper bearing portion integrally formed with at least one lower bearing extension so as to produce a rigid member, the upper bearing portion being folded over the at least one lower bearing extension so that a bottom surface of the upper bearing portion directly contacts a top surface of the at least one lower bearing extension to reduce a width to thickness ratio of the rigid member, and an integral web receiving portion orthogonal thereto and having two integral web receiving tabs and a pair of integral inner flange portions, each inner flange portion extending substantially perpendicularly from one of the web receiving tabs so as to be in a spaced relationship to the rigid member along a length of the upper, chord member, wherein the upper bearing portion, the at least one lower bearing extension, the two web receiving tabs, and the pair of inner flange portions are a unitary structure made from sheet steel; a lower elongate chord member, wherein the upper chord member extends longitudinally beyond the lower chord member at each end thereof; and a generally planar steel web attached to the web receiving portion of the upper chord member between the two web receiving tabs and attached to the lower chord member. 2. An upper chord bearing joist as claimed in claim 1 wherein the lower elongate chord member is cold-formed from a unitary piece of sheet steel-and including a lower bearing portion integrally formed with at least one upper bearing extension so as to produce a rigid member, the lower bearing portion being folded over the at least one upper bearing extension to reduce a width to thickness ratio of the rigid member, and an integral web receiving portion orthogonal thereto and having two integral web receiving tabs and a pair of integral inner flange portions, each inner flange portion-extending substantially perpendicularly from one of the web receiving tabs so as to be in a spaced relationship to the rigid member along a length of the lower chord member, wherein the lower bearing portion, the at least one upper bearing extension, the two web receiving tabs, and the pair of inner flange portions are a unitary structure made from sheet steel. 3. An upper chord bearing joist as claimed in claim 2 wherein the generally planar steel web is attached intermediate to the web receiving tabs of the upper and lower chord members between the respective two web receiving tabs. 4. An upper chord bearing joist as claimed in claim 3 further including a pair of angled end support members attached between the ends of the lower chord member and the upper chord member at each end thereof. 5. An upper chord bearing joist as claimed in claim 2 wherein the lower chord extends outwardly from both sides of the web and forms a generally planar bottom surface. 6. An upper chord bearing joist as claimed in claim 1 wherein the lower chord extends outwardly from one side of the web and forms a generally planar bottom surface. 7. An upper chord bearing joist as claimed in claim 1 wherein the lower chord member has a generally planar bottom surface. 8. An upper chord bearing joist as claimed in claim 7 wherein the upper chord member has a generally planar top surface. 9. An upper chord bearing joist as claimed in claim 1 wherein the upper chord member is adapted to be embedded in composite with concrete when the joist is used as a composite joist. 10. An upper chord bearing joist as claimed in claim 9 wherein the upper chord member includes a generally inverted L-shape having a generally vertical portion and a generally horizontal portion and wherein the vertical portion is at least one of the web receiving tabs and wherein the horizontal portion is at least a portion of the rigid member and has at least two thicknesses of steel. 11. An upper chord bearing joist as claimed in claim 2 wherein the inner flange portions have a plurality of spaced apart holes formed therein. 12. An upper chord bearing joist as claimed in claim 1 wherein the joist is configured to be loaded concentrically. 13. An upper chord bearing joist as claimed in claim 1 wherein the web is a cold-formed web having a plurality of holes formed therein. 14. An upper chord bearing joist as claimed in claim 13 wherein each hole has a cold-formed lip extending around the periphery thereof. 15. An upper chord bearing joist as claimed in claim 3 wherein the web includes a plurality of web members attached together. 16. An upper chord bearing joist as claimed in claim 15 wherein the web members are web segments and at least one web segment has a different thickness than the other web segments. 17. An upper chord bearing joist as claimed in claim 15 wherein the web members at opposed ends of the joist have a greater thickness than the web members therebetween. 18. An upper chord bearing joist as claimed in claim 1 wherein the web further includes stiffening means. 19. An upper chord bearing joist as claimed in claim 18 wherein the stiffening means includes a plurality of shapes embossed therein, and wherein the shapes are chosen from a group including vertical ridges and shapes having horizontal and vertical dimension. 20. An upper chord bearing joist as claimed in claim 18 wherein the web includes a plurality of segments and wherein the stiffening means includes stiffening tabs being elongate tabs at either end of each segment. 21. An upper chord bearing joist as claimed in claim 1 wherein each chord member and the web is coated with a coating material. 22. An upper chord bearing joist as claimed in claim 1 wherein the joist is cambered. 23. An upper chord bearing joist as claimed in claim 1 wherein the at least one lower bearing extension includes a pair of opposing lower bearing extensions. 24. A supporting system for use between opposing walls comprising: a plurality of upper chord bearing joists, each joist having: an upper elongate chord bearing member being cold-formed from a unitary piece of sheet steel and including an upper bearing portion integrally formed with at least one lower bearing extension so as to produce a rigid member, the upper bearing portion being folded over the at least one lower bearing extension so that a bottom surface of the upper bearing portion directly contacts a top surface of the at least one lower bearing extension to reduce a width to thickness ratio of the rigid member, and an integral web receiving portion orthogonal thereto and having two integral web receiving tabs and a pair of integral inner flange portions, each inner flange portion extending substantially perpendicularly from one of the web receiving tabs so as to be in a spaced relationship to the rigid member along a length of the upper chord member, wherein the upper bearing portion, the at least one lower bearing extension, the two web receiving tabs and the pair of inner flange portions are a unitary structure made from sheet steel, a lower elongate chord member, wherein the upper chord member extends longitudinally beyond the lower chord member at each end thereof, and a generally planar steel web attached to the web receiving portion of the upper chord member between the two web receiving tabs and attached to the lower chord member, wherein the joists are supported by and span a separation between opposing walls. 25. A supporting system as claimed in claim 24 further including a plurality of bridging members between adjacent joists and attached thereto. 26. A supporting system as claimed in claim 25 wherein the plurality of bridging members are adapted to snap in place. 27. A supporting system as claimed in claim 26 wherein the bridging members include a top bridge attached to the webs of joists adjacent to the upper chord and a bottom bridge attached to the webs of the joists adjacent to the lower chord. 28. A supporting system as claimed in claim 26 wherein the bridging members include a top bridge attached to the upper chord of joists and a bottom bridge attached to the lower chord of the joists. 29. A supporting system as claimed in claim 27 further including criss-crossed bridges attached to the top and bottoms bridges. 30. A supporting system as claimed in claim 28 further including criss-crossed bridges attached to the top and bottoms bridges. 31. A supporting system as claimed in claim 25 wherein the bridging members are diaphragm assemblies. 32. A supporting system as claimed in claim 25 wherein the rigid member of the upper chord members are adapted to support one of a platform and a deck. 33. A supporting system as claimed in claim 29 wherein the upper chord member is cold-formed to provide a concrete engaging portion extending upwardly from the top of the flange portion, and the concrete engaging portion is adapted to bond to concrete when the joist is used as a composite joist and wherein the deck includes a composite concrete slab and the plurality of joists together act as a stay in place forming system. 34. A supporting system as claimed in claim 33 wherein the concrete slab has a wire mesh embedded therein. 35. A supporting system as claimed in claim 24 wherein the at least one lower bearing extension includes a pair of opposing lower bearing extensions. 36. A supporting system as claimed in claim 24 wherein the upper chord member is adapted to be embedded in composite with concrete when the joist is used as a composite joist. 37. A supporting system as claimed in claim 36 wherein the upper chord member includes a generally inverted L-shape having a generally vertical portion and a generally horizontal portion and wherein the vertical portion is at least one of the web receiving tabs and wherein the horizontal portion is at least a portion of the rigid member and has at least two thicknesses of steel. 38. An upper chord bearing joist comprising: an upper elongate chord member being cold-formed from a unitary piece of sheet steel, the upper chord member including an upper bearing portion integrally formed with at least one lower bearing extension so as to produce a rigid member, the upper bearing portion being folded over the at least one lower bearing extension so that a bottom surface of the upper bearing portion directly contacts a top surface of the at least one lower bearing extension to reduce a width to thickness ratio of the rigid member and an integral web receiving portion orthogonal thereto, and having two integral web receiving tabs, wherein the upper bearing portion, the at least one lower bearing extension, and the web receiving portion are a unitary structure made from sheet steel; a lower elongate chord member, wherein the upper chord member extends longitudinally beyond the lower chord member at each end thereof; and a generally planar steel web attached to the web receiving portion of the upper chord member between the two web receiving tabs and attached to the lower chord member, and the web having a plurality of generally planar web members attached together. 39. An upper chord bearing joist as claimed in claim 38 wherein the web members are web segments and at least one web segment has a different thickness than the other web segments. 40. An upper chord bearing joist as claimed in claim 38 wherein the web members at opposed ends of the joist have a greater thickness than the web members therebetween. 41. An upper chord bearing joist as claimed in claim 38 wherein the web further includes stiffening means. 42. An upper chord bearing joist as claimed in claim 41 wherein the stiffening means includes a plurality of shapes embossed therein wherein the shapes are chosen from a group consisting of vertical ridges and shapes having a horizontal and a vertical dimension. 43. An upper chord bearing joist as claimed in claim 41 wherein the web includes a plurality of segments and wherein the stiffening means includes stiffening tabs being elongate tabs at either end of each segment. 44. An upper chord bearing joist as claimed in claim 38 further including a pair of angled end support members attached between the ends of the lower chord member and the upper chord member at each end thereof. 45. An upper chord bearing joist as claimed in claim 38 wherein the joist is cambered. 46. An upper chord bearing joist as claimed in claim 38 wherein the joist is configured to be loaded concentrically. 47. An upper chord bearing joist as claimed in claim 38 wherein the web has a plurality of holes formed therein. 48. An upper chord bearing joist as claimed in claim 47 wherein each hole has a lip extending around the periphery thereof. 49. An upper chord bearing joist as claimed in claim 38 wherein each chord member and the web is coated with coating material. 50. An upper chord bearing joist as claimed claim 38 wherein the web is attached to each chord using one of rivets, self piercing rivets, bolts and nuts, screws, welding and spot clinches. 51. An upper chord bearing joist as claimed in claim 38 wherein the at least one lower bearing extension includes a pair of opposing lower bearing extensions. 52. An upper chord bearing joist as claimed in claim 38 wherein the upper chord member is adapted to be embedded in composite with concrete when the joist is used as a composite joist. 53. An upper chord bearing joist as claimed in claim 52 wherein the upper chord member includes a generally inverted L-shape having a generally vertical portion and a generally horizontal portion and wherein the vertical portion is at least one of the web receiving tabs and wherein the horizontal portion is at least a portion of the rigid member and has at least two thicknesses of steel.
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Meyer Darrell G., Bearing elements and methods relating to same.
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Meyer Dolph A. (4 Marook Street Carlingford ; New South Wales AUX 2118) Sardjono Wyatmodjo (29 Edward Street Ryde ; New South Wales AUX 2112), Roof truss and beam therefor.
Paßmann, Christoph; Kreisner, Richard; Schlierbach-Knobloch, Thomas; Noll, Stefan; Schulte, Franz, Crane girder for a crane, in particular for an overhead or gantry crane, and a crane comprising such a girder.
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