A center beam car has a main deck structure extending laterally from a main center sill, a laterally extending top truss structure, and a central vertically oriented web work structure for carrying vertical shear loads. The center beam so formed defines bunks upon in which to carry cargo. The upper region of the web-work structure includes a deep upper beam structure that has downwardly extending planar surfaces. The surfaces provide a bearing area against which bundled loads can be secured. The surfaces are inwardly reinforced to discourage deflection between adjacent upright members of the vertical web work.
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11. A center beam rail road car having a longitudinal centerline, the center beam rail road car being supported by rail car trucks at either end thereof, said center beam rail road car comprising: a center sill extending between said trucks; a decking structure extending laterally of said center sill, upon which loads can be placed; an open web work structure extending upwardly from said center sill; an upper beam mounted upon said open web work structure, said upper beam being mounted to said open web work structure at a joining interface; said upper beam having a pair of longitudinally extending, laterally spaced apart, planar members, said planar members each having a smooth outwardly facing surface against which cargo lading in the form of bundles of forest products having a length of at least 8 ft and a depth of at least 16 inches placed laterally outboard thereof can bear, said bundles of forest products being oriented such that the longitudinal axes of the bundles are parallel to the longitudinal centerline of the rail road car; and said upper beam planar members having an outside lateral dimension matching said open web work structure at said joining interface.
42. A rail road car having a longitudinal centerline, comprising: a pair of rail car trucks and a center beam assembly carried thereupon; said center beam assembly having a center sill; a cargo support structure extending laterally of said center sill assembly; and a plurality of posts extending upwardly from said center sill, said cargo support structure including decking having a first end, a second end, and upstanding bulkheads mounted at each of said first and second ends; each of said bulkheads having a base adjoining said decking and an upper end upwardly distant therefrom; said posts having a lower region adjacent said center sill and an upper region distant from said center sill; a non-consumable, longitudinally extending upper beam assembly mounted to said upper region of said posts and running between said upper ends of said bulkheads, said upper beam assembly including a longitudinally extending structural member presenting a bearing surface facing laterally outward, against which cargo lading in the form of bundles of forest products having a length of at least 8 ft and a depth of at least 16 inches can bear, said bundles of forest products being oriented such that the longitudinal axes of the bundles are parallel to the longitudinal centerline of the rail road car; said bearing surface being reinforced to discourage lateral deflection thereof.
25. A center beam car having a longitudinal centerline, the center beam car being supported by rail car trucks at either end thereof, said center beam rail car comprising: a center sill extending between said trucks; a decking structure extending laterally of said center sill upon which loads can be placed; an open truss structure extending upwardly from said center sill; said open truss structure including an upper beam assembly mounted upwardly of, and parallel to, said center sill; said open truss structure including an array of posts extending between said center sill and said upper beam assembly; said upper beam assembly having a pair of longitudinally extending, laterally spaced apart, planar members, said planar members each having an outwardly facing surface against which cargo lading in the form of bundles of forest products having a length of at least 8 ft and a depth of at least 16 inches placed laterally outboard thereof can bear, said bundles of forest products being oriented such that the longitudinal axes of the bundles are parallel to the longitudinal centerline of the rail road car; said outwardly facing surfaces standing proud of said posts; and said planar members each having a longitudinally extending reinforcement mounted laterally inboard thereof to discourage lateral deflection of said faces when cargo placed laterally outward thereof bears there against.
1. A center beam rail road car having a longitudinal centerline, the rail road car being supported by rail car trucks at either end thereof, said railroad car comprising: a cargo support structure borne between the trucks, upon which cargo can be carried; said cargo support structure including decking having a first end, a second end, and upstanding bulkheads mounted at each of said first and second ends; each of said bulkheads having a base adjoining said decking and an upper end upwardly distant therefrom; a web work assembly including an array of posts mounted along the longitudinal centerline of the rail road car, said array extending upwardly of said cargo support structure; said web work assembly having a lower region adjacent to said cargo support structure, and an upper region distant from said cargo support structure; an upper beam located above said web work assembly, said upper beam running between said upper ends of said bulkheads; said upper beam having at least one structural member mounted to said upper region of said web work assembly, said structural member having a longitudinally extending face against which lading in the form of bundles of forest products having a length of at least 8 ft, and a depth of at least 16 inches placed laterally outward of said posts can bear, said bundles of forest products being oriented such that the longitudinal axes of the bundles are parallel to the longitudinal centerline of the rail road car; and a reinforcement member extending laterally inward of said face to discourage lateral deflection of said longitudinally extending face.
2. The railroad car of
3. The center beam car of
4. The center beam car of
5. The center beam car of
6. The center beam car of
8. The center beam car of
said face extends longitudinally past at least one of said posts;
said face has a portion that is longitudinally distant from said one of said posts; and
said reinforcement stiffens said longitudinally distant portion.
9. The center beam car of
10. The center beam assembly of
12. The center beam rail road car of
13. The center beam rail road car of
14. The center beam rail road car of
said open web work structure includes an array of upright posts spaced along said longitudinal centerline;
said posts have notched upper ends; and
said upper beam has a longitudinally extending chord member formed to seat in said notched upper ends of said posts.
15. The center beam railroad car of
16. The center beam rail road car of
17. The center beam rail road car of
18. The center beam rail road car of
19. The center beam railroad car of
said web work structure includes a plurality of upright posts spaced along the longitudinal centerline of said railroad car and diagonal bracing mounted thereto;
each of said posts has a tapering width transverse to said longitudinal centerline of said rail road car, said posts tapering from a wider position adjacent to said decking structure to narrower portion at a top end adjacent to said upper beam;
each of said posts has a notch defined in said top end thereof;
said upper beam has
a first U-shaped formed member seated in said notch, said first U-shaped member having a back and upstanding legs;
a second U-shaped, formed member having a back and downwardly extending legs;
said legs of said first and second U-shaped members co-operate to define said planar members; and
said legs of said first and second U-shaped members are formed at an angle matching the taper of said posts.
20. The center beam rail road car of
said posts have notched upper ends; and
said upper beam assembly has a longitudinally extending chord member formed to seat in said notched upper ends of said posts.
21. The railroad car of
22. The railroad car of
23. The railroad car of
26. The center beam railroad car of
27. The center beam car of
28. The center beam car of
29. The center beam car of
30. The center beam car of
31. The center beam car of
33. The center beam railroad car of
34. The center beam rail road car of
35. The center beam railroad car of
36. The center beam rail road car of
37. The center beam rail road car of
38. The center beam rail road car of
39. The railroad car of
40. The railroad car of
41. The railroad car of
43. The railroad car of
44. The railroad car of
45. The rail road car of
46. The rail road car of
47. The rail road car of
48. The rail road car of
49. The rail road car of
50. The railroad car of
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This application is a continuation of U.S. patent application Ser. No. 09/457,615 filed Dec. 8, 1999.
This invention relates generally to center beam rail road cars, and, in particular, to center beam cars having a deepened upper beam structure.
Center beam railroad cars have a pair of end structures mounted on railroad car trucks. A center sill extends the length of the car between the end structures. A deck extends laterally outward from the center sill above, and between, the end structures. A pair of end bulkheads stand at the ends of the car and extend transversely of the rolling direction of the car. A center beam structure, typically in the nature of a truss, stands upright from the deck and runs along the longitudinal centerline of the car between the end bulkheads. The center beam is a deep girder beam whose bottom flange is the center sill, and whose top flange is the top truss (or analogous structure) of the car. Typically, a web work structure for carrying vertical shear loads, such as an open framework of posts and diagonal braces, extends between the center sill and the top truss. An upper beam assembly, that is, the upper or top flange end of the center beam, is usually manufactured as a wide flange, or flange-simulating truss, both to co-operate with the center sill to resist vertical bending, and also to resist bending due to horizontal loading of the car while travelling on a curve. Center beam cars are commonly used to transport packaged bundles of lumber, although other loads such as pipe, steel, engineered wood products, or other goods can also be carried.
The space above the deck on each side of the center beam forms a bunk upon which bundles of wood can be loaded. The base of the bunk has risers that are mounted to slant inward, and the center beam itself is tapered from bottom to top, such that when the bundles are stacked, the overall stack leans inward toward the longitudinal centerline of the car. The load is most typically secured in place using straps or cables. The straps extend from a winch device at deck level, upward outside the bundles, to a top fitting. The top fitting can be located at one of several intermediate heights for partially loaded cars. Most typically the cars are fully loaded and the strap terminates at a fitting mounted to the outboard portion of the upper beam assembly. In as much as the upper beam assembly is narrower than the bundles, when the strap is drawn taut by tightening the pawl, it binds on the upper outer comer of the topmost bundle and exerts a force inwardly and downwardly, tending thereby to hold the stack in place tight against the web of the center beam.
Each bundle typically contains a number of pieces of lumber, commonly 2×4, 2×6, 2×8 or other standard size. The lengths of the bundles vary, typically ranging from 8′ to 24′, in 2′ increments. The most common bundle size is nominally 32 inches deep by 49 inches wide, although 24 inch deep bundles are also used, and 16 inch deep bundles can be used, although these latter are generally less common. A 32 inch nominal bundle may contain stacks of 21 boards, each 1½ inch thick, making 31½ inches, and may include a further 1½ inches of dunnage for a total of 33 inches. The bundles are loaded such that the longitudinal axes of the boards are parallel to the longitudinal, or rolling, axis of the car generally. The bundles are often wrapped in a plastic sheeting to provide some protection from rain and snow, and also to discourage embedment of abrasive materials such as sand, in the boards. The bundles are stacked on the car bunks with the dunnage located between the bundles such that a fork-lift can be used for loading and unloading.
It has been observed that when the straps are tightened, the innermost, uppermost boards of the topmost bundle bear the greatest portion of the lateral reaction force against the center beam due to the tension in the straps or cables. It has also been observed that when these bundles bear against the vertical posts of the center beam, the force is borne over only a small area. As the car travels it is subject to vibration and longitudinal inertia loads. Consequently the plastic sheeting may tend to be torn or damaged in the vicinity of the vertical posts, and the innermost, uppermost boards can be damaged.
The physical damage to these boards may tend to make them less readily saleable. Further, whether or not the boards are damaged, if the plastic is ripped, moisture can collect inside the sheeting. This may lead to the growth of molds, and may cause discolouration of the boards. In some markets the aesthetic appearance of the wood is critical to its saleability, and it would be advantageous to avoid this discolouration.
In part, the difficulty arises because the bearing area may be too small. Further, the join between the upstanding web portion of the center beam and the upper beam assembly can coincide with the height of the topmost boards. This join is not always smooth. Further still, when the posts are fabricated, the flanges of the posts may not stand perfectly perpendicular to the webs of the respective posts. That is, the post flanges may not be co-planar with the side webs, or legs, of the adjoining top chord, such that one edge of the flange may be twisted so that it bears harder against the bundles than another.
It is also desirable that the bundles stack squarely one upon another. Although it is possible to use wooden battens at the top end of the center beam, this will tend to cause the top bundle to sit outwardly of its neighbours. It has been observed that a thin wooden batten, of ¾″ thickness may tend to bow inwardly between adjacent posts, and may not spread the wear load as much as may be desired. A 1½ inch thick wooden batten may have a greater ability to resist this bowing effect. However, the space available for employing a batten may tend to be limited by the design envelope of the car. In as much as is advantageous to load the car as fully as possible, and given that the design of the car may usually reflect a desire to maximize loading within the permissible operational envelope according to the applicable AAR standard, the use of a relatively thick wooden batten may tend to push the outside edge of the top bundle outside the permissible operational envelope. Wooden battens may also be prone to rotting if subject to excessive exposure to moisture, or may be consumable wear items that may require relatively frequent periodic replacement.
It would be desirable to have an upper beam assembly that is integrated into the structure, that is formed to spread the bearing load across a larger area, that would tend to resist the bowing phenomenon, that would tend not to require frequent replacement, and that would tend not to be prone to rotting.
In an aspect of the invention there is a center beam railroad car having a longitudinal centerline. The railroad car is supported by rail car trucks at either end thereof. The railroad car comprises a cargo support structure borne between the trucks, upon which cargo can be carried. There is a web work assembly including an array of posts mounted along the longitudinal centerline of the railroad car. The array extends upwardly of the cargo support structure, and the array is braced longitudinally. An upper beam assembly surmounts the web work assembly. The upper beam assembly has cantilevered wings extending laterally of the longitudinal centerline. The railroad car has a load limit height defined at a level measured upwardly from the cargo support structure, and has a nominal load height that is less than the load limit height. The nominal load height is at least as great as 32 inches multiplied by Q, where Q is the integer quotient obtained by dividing the load limit height by 32 inches. The web work assembly has at least one skirt member mounted thereto to define a longitudinally extending face against which loads placed laterally outward thereof can bear. The skirt member extends from a first height that is at least as high as the nominal load height to a second height that is at least six inches below the nominal load height.
In another feature of that aspect of the invention the first height is at least 2 inches above the nominal load height. In an additional feature of that aspect of the invention the first height is at least as high as the load limit height. In another additional feature of that aspect of the invention the distance between the first and second heights is at least 12 inches. In still another additional feature of that aspect of the invention the distance between the first and second heights is at least 24 inches. In yet another additional feature of that aspect of the invention the distance between the first and second heights is at least 30 inches. In a further additional feature of that aspect of the invention the skirt member extends between two posts of the array.
In a still further additional feature of that aspect of the invention each of the posts is located at a longitudinal station along the longitudinal centerline. The skirt member extends longitudinally over a range of distance that includes the longitudinal station of at least one of the posts. The skirt member has a portion that is longitudinally distant from one of the posts, and the reinforcement stiffens the longitudinally distant portion.
In yet another additional feature of that aspect of the invention the center beam car has a first skirt member and a second skirt member. The first skirt member has a first face for engaging loads placed laterally to one side of the web work assembly, and the second skirt member has a second face for engaging loads placed laterally to the other side of the web work assembly. In still another additional feature of that aspect, the reinforcement is a web extending between the first skirt member and the second skirt member.
In another aspect of the invention there is a center beam railroad car having a longitudinal centerline. The center beam car is supported by rail car trucks at either end thereof. The center beam railroad car has a center sill extending between the trucks. There is a decking structure extending laterally of the center sill upon which loads can be placed. An open truss assembly extends upwardly from the center sill. An upper beam assembly is mounted upon the open truss assembly. The upper beam structure includes laterally extending wing portions and a vertical stem portion. The stem portion is mounted to the open truss assembly at a joining interface, and the laterally extending wing portions are mounted to the stem. The stem includes a pair of longitudinally extending, laterally spaced apart, first and second skirt members. The first skirt member has a first outwardly facing surface against which cargo placed laterally outboard thereof can bear. The second skirt member has a second outwardly facing surface against which cargo placed laterally outboard thereof can bear. The center beam car has an upper load limit height defined at a level between the decking structure and the laterally extending wings. The first and second skirt members are located to overlap the load limit height. The outside lateral dimension of the stem matches the overall outside dimension of the open truss assembly at the joining interface.
In an additional feature of that aspect of the invention the stem and the open truss assembly have slope continuity at the joining interface. In still another additional feature of that aspect of the invention the open truss assembly has a taper from bottom to top and the first and second skirt members are angled to match the taper of the truss assembly. In still yet another additional feature of that aspect of the invention the car conforms to AAR plate C, and 49 inches is at least as great as the distance from the first outwardly facing surface of the first skirt member to the limit of the AAR plate ‘C’ profile, measured along the load limit height boundary. In a further additional feature of that aspect of the invention the open truss assembly includes an array of upright posts spaced along the longitudinal centerline and bracing. The posts have notched upper ends; and the stem includes a longitudinally extending top chord member formed to seat in the notched upper ends of the posts. In still a further additional feature of that aspect of the invention the top chord member includes a U-shaped pressing. The first and second skirt members are formed integrally therewith. In still yet a further additional feature of that aspect of the invention the U-shaped pressing has a back and the first and second skirt members have an inwardly stepped shoulder extending there along for seating in the notches of the posts.
In an additional feature of that aspect of the invention the longitudinally extending top chord member is a channel having a back and legs. The back is of a width to seat in the notches of the posts, and the first and second skirt members are mounted to the legs. In another additional feature of that aspect of the invention the longitudinally extending top chord member is a tube. The first and second skirt members are mounted to sides of the tube to leave a portion of the tube extending downwardly beyond the first and second skirt members. The notches of the posts are formed to engage the downwardly extending portion of the tube.
In still another additional feature of that aspect of the invention the open truss assembly includes a plurality of upright posts spaced along the longitudinal centerline of the railroad car and diagonal bracing mounted thereto. Each of the posts has a width transverse to the longitudinal centerline of the railroad car. The posts taper from a wider portion adjacent to the decking structure to a narrower portion at a top end adjacent to the upper beam assembly. Each of the posts has a notch defined in the top and thereof. The stem is a top chord assembly having a first U-shaped formed member seated in the notch. The first U-shaped member has a back and upstanding legs. A second U-shaped, formed member has a back and downwardly extending legs. The legs of the first and second U-shaped members co-operate to define the skirt members. The legs of the first and second U-shaped members are formed at an angle matching the taper of the tapered posts.
In another aspect of the invention there is a center beam rail car having a longitudinal centerline. The center beam rail car is supported by rail car trucks at either end thereof. The center beam railroad car has a center sill extending between the trucks, a decking structure extending laterally of the center sill upon which loads can be placed, an open truss structure extending upwardly from. the center sill and an upper beam assembly mounted upon the open truss structure. The upper beam structure includes laterally extending wing portions. The open truss structure has a pair of longitudinally extending, laterally spaced apart, first and second skirt members mounted thereto. The first and second skirt members each have an outwardly facing surface against which cargo placed laterally outboard thereof can bear. The center beam car has an upper load limit height defined at a level between the decking structure and the laterally extending wings. The first and second skirt members are located to overlap the load limit height. The first and second skirt members have at least one reinforcement mounted laterally inboard thereof to discourage lateral deflection of the faces when cargo placed laterally outward thereof bears against the first and second skirt members.
In a further aspect of the invention, there is a rail road car having a longitudinal centerline. It comprises a pair of rail car trucks and a center beam assembly carried thereupon. The center beam assembly has a lower flange assembly, an upper flange assembly, and a web assembly extending between the upper and lower flange assemblies. The web assembly has a plurality of upwardly extending posts. The posts have a lower region and an upper region. The web assembly has a non-consumable skirt mounted to the upper region of the posts. The skirt presents a bearing surface. The bearing surface faces laterally outward relative to the longitudinal centerline of said rail road car. Cargo can bear against the bearing surface.
In an additional feature of that aspect, the posts have a laterally outwardly facing flange, and the laterally outwardly facing skirt is mounted flush with the flange. In another alternative additional feature of that aspect of the invention, the posts have a laterally outwardly facing flange, and the skirt stands proud of said outwardly facing flange a distance less than ¾ inches. In still another additional feature of that aspect of the invention, the skirt is formed of a hollow cell material having an outwardly facing skin. In another alternative additional feature, the skirt is formed of a corrugated section with an outer skin against. which objects may bear. In a further additional feature of that aspect of the invention, the skirt is laterally inwardly reinforced to discourage bowing thereof between adjacent pairs of posts.
In another aspect of the invention there is a center beam rail road car having a longitudinal centerline, the rail road car being supported by rail car trucks at either end thereof The railroad car has a cargo support structure borne between the trucks, upon which cargo can be carried. The cargo support structure includes decking having a first end, a second end, and upstanding bulkheads mounted at each of the first and second ends. Each of the bulkheads has a base adjoining the decking and an upper end upwardly distant therefrom. A web work assembly including an array of posts is mounted along the longitudinal centerline of the railroad car, the array extending upwardly of the cargo support structure. The web work assembly has a lower region adjacent to the cargo support structure, and an upper region distant from the cargo support structure. An upper beam is located above the web work assembly. The upper beam runs between the upper ends of the bulkheads. The upper beam member has at least one structural member mounted to the upper region of the web work, the structural member having a longitudinally extending face against which lading placed laterally outward of the posts can bear. A reinforcement member extends laterally inward of the face to discourage lateral deflection of the longitudinally extending face.
In still another aspect of the invention there is a center beam railroad car having a longitudinal centerline. The center beam railroad car is supported by rail car trucks at either end thereof. The center beam railroad car has a center sill extending between the trucks; a decking structure extending laterally of the center sill, upon which loads can be placed; an open web work structure extending upwardly from the center sill; and an upper beam mounted upon the open web work structure. The upper beam is mounted to the open web work structure at a joining interface. The upper beam has a pair of longitudinally extending, laterally spaced apart, planar members, the planar members each having a smooth outwardly facing surface against which cargo placed laterally outboard thereof can bear. The upper beam planar members have an outside lateral dimension matching the open web work structure at the joining interface.
In a further aspect of the invention, there is a center beam car having a longitudinal centerline, the center beam car being supported by rail car trucks at either end thereof. The center beam rail car includes a center sill extending between the trucks; a decking structure extending laterally of the center sill upon which loads can be placed; and an open truss structure extending upwardly from the center sill. The open truss structure includes an upper beam assembly mounted upwardly of, and parallel to, the center sill. The open truss structure includes an array of posts extending between the center sill and the upper beam assembly. The upper beam assembly has a pair of longitudinally extending, laterally spaced apart, planar members. The planar members each have an outwardly facing surface against which cargo placed laterally outboard thereof can bear. The outwardly facing surfaces stand proud of the posts. The planar members each have a longitudinally extending reinforcement mounted laterally inboard thereof to discourage lateral deflection of the faces when cargo placed laterally outward thereof bears there against.
In still another aspect of the invention, there is a railroad car having a longitudinal centerline. The railroad car has a pair of rail car trucks and a center beam assembly carried thereupon. The center beam assembly has a center sill; a cargo support structure extending laterally of the center sill assembly; and a plurality of posts extending upwardly from the center sill. The cargo support structure includes decking having a first end, a second end, and upstanding bulkheads mounted at each of the first and second ends. Each of the bulkheads has a base adjoining the decking and an upper end upwardly distant therefrom. The posts have a lower region adjacent the center sill and an upper region distant from the center sill. A non-consumable, longitudinally extending upper beam assembly is mounted to the upper region of the posts and runs between the upper ends of the bulkheads. The upper beam assembly includes a longitudinally extending structural member presenting a bearing surface facing laterally outward, against which cargo can bear, the bearing surface being reinforced to discourage lateral deflection thereof.
The description which follows, and the embodiments described therein, are provided by way of illustration of an example, or examples of particular embodiments of the principles of the present invention. These examples are provided for the purposes of explanation, and not of limitation, of those principles and of the invention. In the description which follows, like parts are marked throughout the specification and the drawings with the same respective reference numerals. The drawings are not necessarily to scale and in some instances proportions may have been exaggerated in order more clearly to depict certain features of the invention.
A center beam railroad car is indicated in
The structure of a center beam car is analogous to a deep beam having a tall central structure to approximate the web of a beam, or a web-like structure or truss assembly, a wide flange at the bottom, and a wide flange at the top. In the case of railroad car 20, the central web-work assembly is indicated generally as 30 and runs in the longitudinal direction (that is, the rolling direction of the car), the top flange function is served by a top truss assembly 32, and the lower flange function is performed by a lower flange assembly in the nature of a lateral support structure 34, upon which cargo can be placed, and that extends laterally outward to either side of a main center sill 36.
In detail, as shown in
At either end of car 20 there are vertically upstanding fore and aft end bulkheads 50 and 52 which extend from side to side, perpendicular to the central longitudinal plane 26 of car 20. Each of bulkheads 50 and 52 has a base portion 53 adjoining decking 46, and an upper end 51 located upwardly away from decking 46. Running the full length of car 20 between end bulkheads 50 and 52 is an array 54 of upright posts 56, 57. Array 54 is reinforced by diagonal braces 58, 59, that provide a sheer path for vertical loads.
As also shown in
Each of posts 56 has a central web 74 that lies in a vertical plane perpendicular to the plane 26 of car 20. Web 74 is tapered from a wide bottom adjacent main center sill 36 to a narrow top. The wide bottom portion is about 13½ inches wide, and at the top portion the inward taper is such as to yield a 6 inch width of section at the junction of top chord assembly 62 and top truss 64. At the outboard extremities of web 74 there are left and right hand flanges 76 and 78 that each lie in a longitudinal plane inclined at an angle a defined (from the vertical) by the slope of the taper of web 74. In the preferred embodiment, αis roughly 1.450°. At the top of each post 56, 57 web 74 has been trimmed back to a pair of tabs 80, 82 at the ends of flanges 76, 78. This yields a seat, socket, relief, or rebate in the nature of a generally U-shaped notch or slot 84 into which top chord assembly 62 can seat.
A horizontal cross-section of post 56 will generally have an H-shape, with web 74 lying centrally relative to flanges 76 and 78. Post 57, by contrast, although tapered in a similar manner to post 56, has a horizontal cross-section of a U-shaped channel, with its web being the back of the U, and the flanges being a pair of legs extending away from the back. Each diagonal member 58 (or 59) has a first end rooted at a lower lug 86 welded at the juncture of the base of one of the posts 56 and decking 46 and main center sill 36, and a second diagonal end rooted in an upper lug 88 at the juncture of another adjacent post 56 and top chord assembly 62. Midway along its length, diagonal beam 58 (or 59) passes through a post 57 intermediate the posts 56 to which diagonal 58 (or 59) is mounted. It is intended that the respective flanges of the various posts 56 and 57 lie in the same planes on either side of the central plane 26 of car 20 to present an aligned set of bearing surfaces against which lading can be placed.
The incline of flanges 76 and 78 is such that they lie at roughly a right angle to the inward taper of risers 48 so that generally square or rectangular bundles can be stacked neatly in the clearance openings of the bunk defined between the underside of the top truss 64 and risers 48.
In the preferred embodiment of
Straps 92 are provided to attach to the out board, distal extremities of wings 65 and 67 of top truss 64, to be wrapped outboard of the load, and to be tightened by a come-along, a winch, a pawl-and-ratchet type of mechanism, indicated generally as 94, or similar tightening device mounted to the respective side sill 42 or 44. An operator turns mechanism 94 with the aid of an extension bar or handle (not shown). When tightened, straps 92 bear against the outboard, upper comers of bundles indicated as 96, tending to force their inboard, upper regions, indicated generally as 98, most tightly against the upright car structure that extends along plane of symmetry 26, namely array 54 and the outer shank, or skirt of stem 69 of upper beam assembly 60.
The preferred embodiment illustrated in
Deep beam section 90 is shown in cross-section in FIG. 4a. It includes a first, or upper formed section 120 in the shape of an inverted U, having a back 122 and left and right hand legs 124, 126. Legs 124, 126 are splayed outwardly relative to the vertical at angle a to match the angle of the taper of the flanges of posts 56 and 57. Upper-formed section 120 also has inwardly stepped shoulders 121 and 123 to accommodate the mating ears of gusset plates 125 and 127 which join top truss 64 to top chord assembly 62. Deep beam section 90 also includes a second formed section 130 that is generally U-shaped, having a back 132, and a pair of left and right hand legs 134 and 135. Legs 134 and 135 each have a proximal region 138, 139 relative to back 132 that is stepped inwardly to form a shoulder 140 and a neck 142 of a size to nest between tabs 80, 82 of post 56 (or 57). Tabs 80, 82 are formed by trimming back web 74 locally to conform to the depth of shoulder 140. Legs 134, 135 also each have an inwardly stepped toe 148, 149 stepped inward a distance equal to the wall thickness of legs 134, 135 such that toes 150, 151 of legs 124, 126 of member 120 can overlap, and seat outside of, outside toes 148, 149 respectively, and be fillet welded in place. Legs 134 and 135 are angled inward to yield slope continuity with both legs 124 and 126 and also with flanges 76 and 78 of post 56 (or the corresponding flanges of post 57 as the case may be). That is, legs 134 and 135 are toed inward at the same. angle from the vertical at which legs 124, 126 are splayed outward such that the exterior surfaces are flush with, and lying in the planes of, the respective flanges of posts 56 and 57. The exterior surfaces so defined can be termed skirts.
Gussets 152 and 154 are welded inside formed section 120 and 130 respectively at longitudinal stations along the length of car 20 corresponding to the various longitudinal stations of the webs of posts 56 and 57 respectively, thus providing a substantially continuous web from main sill 36 to top truss 64. There is, however, a web discontinuity between gusset 152 and gusset 154 indicated by gap ‘G’, seen in FIG. 4b. In light of this discontinuity, gussets 152 and 154 have a main web leg 156, 157 that, when installed, lies in the vertical plane of web 74 and a toe 158, 159 extending at a right angle therefrom, lying in a horizontal plane. The lateral edges of toes 158 and 159 are welded along the inside faces of toes 148, 149 and 150, 151 respectively and extend a distance comparable to the width between the respective toes at that point. In the preferred embodiment the overall height of top chord assembly 64 is 27 inches, with ¼ inch wall thickness on legs 156, 157, 134 and 135. In the preferred embodiment the length of legs 134, 135 is 13.5 inches, and the overall length of legs 156, 157 is 14.5 inches. Nominally, shoulder 140 overlaps tabs 80 and 82 by 2 inches. That is, tabs 80, 82 extend 2 inches beyond web 74. Toes 158 and 159 are both 6 inches long, and the nominal width of gap ‘G’is about 6.75 inches.
In this way, when assembled, legs 134, 135 and 156, 157 form respective left and right hand outwardly facing bearing surfaces against which a load may bear, and over which a reaction force to tension in the tightening straps can be spread. In the span between the stations of adjacent posts 56 and 57, the skirts, or bearing surfaces, formed in this way are reinforced by the laterally inward web, (that is, back 132) which connects both skirts (that is, legs 124 and 134, and legs 126 and 135). The laterally inward reinforcement need not be immediately behind the respective skirt or facing, but rather can be offset, as illustrated in
In an alternative embodiment shown in
In the alternative embodiment of
On assembly, L-shaped gussets 216, 217 are welded in each of sections 208, 209. Gussets 216 and 217 each have a profile to match the inside profile of the upper regions of main sheet portions 210, 211, legs 212, 213 and toe 214, 215. The toes of gussets 216 and 217 are welded along their outboard edges to the inside face of main sheet portions 210, 211. Sections 208 and 209 are welded along the centerline seam between abutting toes 214 and 215. A further, main, gusset 220 is trimmed to a shape to permit welding of its top edge to the underside of the toes 218, 219 of gussets 216, 217, its side edges to the inner face of the lower regions of main sheet portions 210 and 211; once welded in this manner, the base leg 222 of gusset 220 can be welded to toes 206 and 207 of angle irons 202 and 204, with a plug weld 223 formed to fill the longitudinal gap therebetween. Gusset 220 is also trimmed to have reliefs 224, 225 to permit entry between the upwardly extending legs of angle irons 202, 204. Gussets 216, 217 and 220 are located at longitudinal stations that correspond generally to the longitudinal stations of posts 56 and 57 as the case may be. Legs 212, 213 of sections 208, 209 form, ideally, a flat surface to weld to top truss assembly 62, as before. Similarly, when installed, main sheet portions 210, 211 have slope continuity with flanges 76 and 78 of posts 56 and 57.
In the alternative embodiment of
In the alternative embodiment of
The alternate embodiment of deep beam 300 of
In this instance a large gusset 318 is welded inside section 302, and plates 312 and 314. Gusset 318 has a vertical leg 320 having a profile cut to yield the desired slope continuity with the flanges of posts 56 and 57.
The alternate embodiment of deep beam 330 of
In the embodiment of
The embodiment of
Panel 410 need not be integrally formed with bent toe 412, but could be fabricated by using a flat sheet 420 as the external face plate, with an angle iron 422, or similar stiffener, welded along the inward facing bottom edge of the face plate between pairs of posts 400, as indicated in the other half view shown in FIG. 12b.
In each of the embodiments illustrated in
The embodiment of
The embodiment of
In the embodiment of
In the preferred embodiment of
In alternative embodiments, the level of the bottom edge of the legs could be as little as one board (1 and ½ inches, kiln dried wood) below the top edge of the design bundle height, but is expected to be most commonly 12 inches, 24 inches (as in the preferred embodiment) or 30 inches deep when measured from the join to the top truss.
It is possible to manufacture a generally similar center beam car to fall within the loading profile defined by AAR plate ‘F’, or some other height. In that case, the desired load limit height is the height that is the largest integer multiple of 33 that is less than the clearance opening. The minimum height of the bottom edge of the leg, or skirt, is desirably 1 and ½ inches or more below the nominal load height, typically such that the overall height of the skirt is, nominally, an integer multiple of 6 that is at least 12 inches. Preferably, the skirt extends to a height that is at least half way down the top bundle of the nominal design load, and possibly to a height that is the full depth of the top bundle.
Although the main deck could be a continuous decking structure, this need not necessarily be so. The main deck, or lower beam structure could be in the form of an open truss, or grid work. Car 20, is preferably a car of all-steel construction. However, although the web work assembly of the center beam, and the top truss section is preferably a welded steel fabricated structure, it could be made of aluminum.
Various embodiments of the invention have now been described in detail. Since changes in and or additions to the above-described best mode may be made without departing from the nature, spirit or scope of the invention, the invention is not to be limited to those details, but only by the appended claims.
Forbes, James W., Wilson, Alistair
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Dec 11 2002 | FORBES, JAMES W | National Steel Car Limited | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 033534 | /0343 | |
Dec 16 2002 | WILSON, ALISTAIR | National Steel Car Limited | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 033534 | /0343 | |
Aug 11 2005 | National Steel Car Limited | (assignment on the face of the patent) | / | |||
Jan 07 2010 | National Steel Car Limited | THE BANK OF NOVA SCOTIA | SECURITY AGREEMENT | 023750 | /0572 | |
Sep 13 2012 | THE BANK OF NOVA SCOTIA | NSCL TRUST, BY ITS TRUSTEE 2327303 ONTARIO INC | SECURITY AGREEMENT | 029136 | /0917 | |
Sep 13 2012 | EXPORT DEVELOPMENT CANADA | NSCL TRUST, BY ITS TRUSTEE 2327303 ONTARIO INC | SECURITY AGREEMENT | 029136 | /0917 | |
Feb 10 2017 | National Steel Car Limited | GREYPOINT CAPITAL INC | SECURITY INTEREST SEE DOCUMENT FOR DETAILS | 041356 | /0479 | |
Feb 10 2017 | National Steel Car Limited | GREYPOINT CAPITAL INC | LIEN SEE DOCUMENT FOR DETAILS | 041364 | /0970 | |
Mar 07 2017 | NSCL TRUST, BY ITS TRUSTEE 2327303 ONTARIO INC | National Steel Car Limited | RELEASE BY SECURED PARTY SEE DOCUMENT FOR DETAILS | 041570 | /0279 |
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