SYMMETRICAL MULTI-UNIT RAILROAD CAR
The present invention relates to symmetrical arrangements in multi-unit articulated rail road cars. A multi-unit railroad car has an odd number of railcar units joined end to end by articulated connectors supported by railcar trucks. The railroad car has a transverse centerline. The arrangement of articulated connectors about the transverse centerline is symmetrical.
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This application is a division of U.S. application Ser. No. 10/611,659, which was filed Jun. 30, 2003, now U.S. Pat. No. 8,011,305, to issue Sep. 6, 2011, which is hereby incorporated by reference.
FIELD OF THE INVENTIONThis invention relates to multi-unit rail road cars, and in particular to symmetrical arrangements in such cars.
BACKGROUND OF THE INVENTIONArticulated multi-unit rail road cars typically have at least two railcar units permanently joined to each other end-to-end at an articulation connection. Most commonly, the adjoining railcar units share a truck, with the articulated connector being mounted over the truck center. In a conventional three-unit articulated rail road car, an intermediate, or middle railcar unit, may typically share a truck with each end railcar unit. The ends of the intermediate railcar unit are joined to the respective adjacent ends of the end railcar units by articulated connectors. A typical articulated connector includes a female articulated connector portion, or socket, mounted to one railcar unit; and an opposing mating male articulated connector portion, or member, mounted to the next adjacent railcar unit. Conventionally, the intermediate railcar unit in a three-unit rail road car is provided with an asymmetric arrangement of articulated connector portions, that is, it has a female articulated connector portion at one end and a male articulated connector portion at the opposite end. Correspondingly, the end railcar units have counterpart male or female articulated connector portions, as the case may be. In that style of layout, all female articulated connector portions extend toward the same end of the three-unit rail road car.
In order to control “side sway”, or roll, of one railcar unit relative to the next adjacent railcar unit, at each end having an articulated connector each railcar unit has a pair of side-bearing support arms. In one arrangement, at one end of the intermediate railcar unit, a narrow pair of side-bearing arms is nested within an opposing, relatively wider pair of side-bearing arms mounted to the adjacent end railcar unit. The side-bearing arrangement is reversed at the other end of the intermediate railcar unit such that the latter is provided with the wide pair of side-bearing arms and the adjacent end railcar unit has the narrow pair of side-bearing arms.
The ride characteristics in a conventional three-unit rail road car may tend to vary depending on the direction of travel. More specifically, it appears that the car may tend to perform “better” in one direction of travel than in the other, particularly when the car is running over curved portions of track. It has further been noted that the wheels of the shared trucks may tend to be subject to greater lateral forces when the car is traveling in the direction associated with less satisfactory performance. It is thought that in addition to causing uneven wear on the truck wheels, this may also tend to increase the likelihood that the wheels will ride up on the rail, and jump the track.
The propensity of the wheels to ride up on the rail may be considered to be a function of the L/V ratio, where L is the lateral force to which the truck wheels are subject and V is the vertical force carried by the truck wheels. The higher the L/V value, the greater may be the likelihood that the truck wheels may tend to ride against the rail when the car negotiates a curve in the track. Accordingly, lower L/V values for the truck wheels may tend generally to be desirable. However, in a conventional rail road car of the type described above, under certain circumstances, the L/V values for the truck wheels may be significantly greater in one direction than the other. This may tend adversely to affect the stability of the car and may tend to generate undesirable vibration throughout the car structure. This in turn may ultimately lead to crack propagation and failure in the car, and consequently to costly car maintenance and repair. In addition, when traveling over a curved portion of track, the side-bearing arms in some of these cars may be subject to undesirably high forces further encouraging vibration in the car structure.
The difference in dynamic performance of the rail road cars may tend to be more (or less) pronounced depending on variation of the frequency of the input perturbances. That is, performance may tend to be a function of frequency and evaluation of the various alternatives may require optimization over the full range of forcing frequencies associated with in-service operation. It has been noted above that dynamic performance may be “better” in one direction than another. The term “better” needs to be understood in the expected operational life. An arrangement that may provide very good performance at one frequency, may provide very poor performance at another, such that, overall, it may be inferior to another layout that produces moderately good performance across the spectrum. In that context, the assessment of “better”, is an overall evaluation performance.
The disadvantages associated with the conventional asymmetric three-unit articulated connector and side bearing arm arrangements noted above may not be restricted to three-unit cars. Other multi-unit articulated rail road cars having a larger number of rail car units may also tend to demonstrate similar dynamic performance phenomena.
Accordingly, in the view of the present inventors, it may be advantageous to construct a multi-unit articulated railroad car having a tendency to exhibit similar ride performance characteristics in both travel directions. Such a car may tend to be less prone to the development of fatigue cracks and may have an extended service life. It would also be desirable to have a multi-unit articulated railroad car in which the forces in the side-bearing arms are reduced to yield improved ride stability of the railroad car.
In a conventional multi-unit articulated rail road car, a number of different sub-assemblies are required to construct any given unit of the car. Manufacturing may be facilitated and made more cost-effective if the number of different sub-assemblies used in a given unit were reduced.
SUMMARY OF THE INVENTIONIn an aspect of the invention, there is a multi-unit articulated railroad car comprising an un-even number of rail car units connected in end-to-end fashion by articulated connectors mounted above railroad trucks. The railroad car has a transverse centerline. The articulated connectors is mounted to the railcar units in a symmetrical arrangement relative to the transverse centerline.
In an additional feature of that aspect of the invention, one of the rail car units is a middle rail car unit. Each articulated connector has a male portion and a female portion. The middle rail car unit has two said male portions mounted thereto.
In another feature of that aspect of the invention, one of the rail car units is a middle rail car unit. Each articulated connector has a male part and a female portion. The middle rail car unit has two of said female parties mounted thereto.
In yet another feature, the railroad car has side bearing arms, and the side bearing arms are mounted in a symmetrical arrangement relative to the transverse centerline. In still another feature, one of the railcar units is a middle rail car unit carried between first and second areas of the rail car trucks. The middle rail car has side bearing arms mounted thereto. The side bearing arms engage bearing surfaces supported on the first and second trucks. The side bearing arms are arranged symmetrically relative to the transverse centerline. In a further still feature, at least one of the rail car units has a well defined therein for accommodating intermodal cargo.
In another aspect of the invention, there is a multi-unit articulated intermodal railroad car comprising first, second and third rail car units carried on a plurality of rail car trucks. The first rail car unit is joined to the second rail car unit at a first articulated connection mounted to a first of the trucks. The second rail car unit is joined to the third rail car unit at a second articulated connection mounted to a second of the trucks. Each articulated connection has a male articulated connector portion associated with the end of one rail car unit and a mating female articulated connector portion associated with the end of an adjacent rail car unit. The second rail car unit has a first end adjacent the first rail car unit and a second end adjacent the third rail car unit. The first and second ends each have one of the male and female articulated connector portions mounted thereto. The articulated connector portion mounted to the first end of the second rail car unit is identical to the articulated connector portion mounted to the second end thereof. The first and third rail car units each have an end adjacent the second rail car unit. The first and third rail car unit ends each have the other of the male and female articulated connector portions mounted thereto for mating with the articulated connector portions of the first and second ends of the second rail car unit. The articulated connector portion mounted to the first rail car unit end is identical to the articulated connector portion mounted to the third rail car unit end.
In an additional feature of that aspect of the invention, the articulated connector portion mounted to each end of the second rail car unit is a female articulated connector portion. The articulated connector portions mounted to the first and third rail car unit ends are male articulated connector portions.
In an another feature, the articulated connector portion mounted to each end of the second rail car unit is a male articulated connector portion. The articulated connector portion mounted to the first and third rail car unit ends are female articulated connector portions.
In an additional feature, the second rail car unit includes a first pair of side bearing arms mounted to the first end thereof and a second pair of side bearing arms mounted to the second end thereof. The side bearing arms of the first pair are identical to the side bearing arms of the second pair. The first rail car unit end has a third pair of side-bearing arms mounted thereto for locating opposite the first pair of side-bearing arms. The third rail car unit end has a fourth pair of side-bearing arms mounted thereto for locating opposite the second pair of side-bearing arms. The side-bearing arms of the fourth pair are identical to the side-bearing arms of the third pair.
In a further additional feature, each side-bearing arm has a proximal end connected to a respective end of a rail car unit and a distal end. The side-bearing arms of the first pair are spaced away from each other a first distance measured center-to-center at the proximal ends thereof. The side-bearing arms of the second pair are spaced away from each other a second distance measured center-to-center at the proximal ends thereof. The second distance is equal to the first distance. The side-bearing arms of the third pair are spaced away from each other a third distance measured center-to-center at the proximal ends thereof. The side-bearing arms of the fourth pair are spaced away from each other a fourth distance measured center-to-center at the proximal ends thereof. The fourth distance is equal to the third distance. In a further still additional feature, the third distance is greater than the first distance.
In an additional feature, the first pair of side-bearing arms is nested within the third pair of side-bearing arms. The second pair of side-bearing arms is nested within the fourth pair of side-bearing arms. In an another additional feature, the first pair of side-bearing arms lies laterally inboard of the third pair of side-bearing arms and the second pair of side-bearing arms lies laterally inboard of the fourth pair of side-bearing arms. In a further additional feature, the side-bearing arms of the first pair extend away from the first end of the second rail car unit in a mutually diverging manner and the side-bearing arms of the third pair extend away from the third rail car unit end in a mutually diverging manner.
In yet another additional feature, the first pair of side-bearing arms lies between the third pair of side-bearing arms and the second pair of side-bearing arms lies between the fourth pair of side-bearing arms. In a further feature, the third distance is less than or equal to about 70 inches. The first distance is at least about 42 inches. In another additional feature, the third distance is 60 inches and the first distance is 42 inches. In still another additional feature, the third distance is 52 inches and the first distance is 48 inches.
In another additional feature, the side-bearing arms of the first pair extend substantially perpendicular to the first end of the second rail car unit. The side-bearing arms of the third pair extend away from the third rail car unit end in a mutually diverging manner.
In another feature, the first distance is greater than the third distance. In an additional feature, the third pair of side-bearing arms is nested within the first pair of side-bearing arms. The fourth pair of side-bearing arms is nested within the second pair of side-bearing arms. In yet another additional feature, the third pair of side-bearing arms lies laterally inboard of the first pair of side-bearing arms. The fourth pair of side-bearing arms lies laterally inboard of the second pair of side-bearing arms. In a further feature, the side-bearing arms of the first pair extend away from the first end of the second rail car unit in a mutually diverging manner. The side-bearing arms of the third pair extend away from the third rail car unit end in a mutually diverging manner.
In another additional feature, the third pair of side-bearing arms lies between the first pair of side-bearing arms. The fourth pair of side-bearing arms lies between the second pair of side-bearing arms. In a further feature, the first distance is less than or equal to about 70 inches and the third distance is at least 42 inches. In still a further feature, the first distance is 60 inches and the third distance is 42 inches. In yet an additional feature, the first distance is 52 inches and the third distance is 48 inches.
In another additional feature, the side-bearing arms of the third pair extend substantially perpendicular to the third rail car unit end. The side-bearing arms of the first pair extend away from the first end of the second rail car unit in a mutually diverging manner.
In yet another additional feature, the first distance is equal to the third distance. In a further feature, the side-bearing arms of the first pair extend substantially perpendicular to the first end of the second rail car unit. The side-bearing arms of the second pair extend substantially perpendicular to the second end of the second rail car unit. The side-bearing arms of the third pair extend substantially perpendicular to the third rail car unit end. The side-bearing arms of the fourth pair extend substantially perpendicular to the fourth rail car unit end. In an additional feature, the distal ends of the side-bearing arms of the first pair are aligned with the distal ends of the third pair of side-bearing arms. The distal ends of the side-bearing arms of the second pair are aligned with the distal ends of the fourth pair of side-bearing arms. In yet another additional feature, the first distance is in the range of about 50 inches to about 70 inches. In still another additional feature, the first distance is 50 inches. In a further feature, the first distance is 70 inches.
In another feature, the side-bearing arms of the first and third pairs are mutually engaging. The side-bearing arms of the first pair has an upwardly facing bearing surface. The side-bearing arms of the third pair has a downwardly facing bearing surface.
In yet another feature, the side-bearing arms of the first and third pairs are mutually engaging. The side-bearing arms of the first pair has a downwardly facing bearing surface. The side-bearing arms of the third pair has an upwardly facing bearing surface.
In an additional feature, each articulated connection is carried at a first height above TOR. The side-bearing arms of each pair are carried at a second height above TOR. In a further feature, the second height is greater than the first height. In yet a further feature, the second height is 37 inches above TOR. In another feature, the second height is 44 inches above TOR. In yet another feature, the second height is substantially equal to the first height.
In yet another aspect of the invention, there is a multi-unit articulated intermodal railroad car comprising first, second, third, fourth and fifth rail car units carried on a plurality of rail car trucks. The first rail car unit is joined to the second rail car unit at a first articulated connection. The second rail car unit is joined to the third rail car unit at a second articulated connection. The third rail car unit is joined to the fourth rail car unit at a third articulated connection. The fourth rail car unit is joined to the fifth rail car unit at a fourth articulated connection. Each articulated connection having a male articulated connector portion associated with the end of a rail car unit and a mating female articulated connector portion associated with the end of an adjacent rail car unit. The first rail car unit has an end adjacent the second rail car unit. The first rail car unit end has one of the male and female articulated connector portions mounted thereto. The fifth rail car unit has an end adjacent the fourth rail car unit. The fifth rail car unit end has one of the male and female articulated connector portions mounted thereto. The articulated connector portion of the fifth rail car unit end is identical to the articulated connector portion of the first rail car unit end. The third rail car unit has a first end adjacent the second rail car unit and a second end adjacent the fourth rail car unit. The first and second ends each have one of the male and female articulated connector portions mounted thereto. The articulated connector portion mounted to the first end of the third rail car unit is identical to the articulated connector portion mounted to the second end thereof.
In an additional feature, the articulated connector portion mounted to each end of the third rail car unit is a female articulated connector portion. In a further feature, the articulated connector portions mounted to the first and fifth rail car unit ends are male articulated connector portions. In still another feature, the articulated connector portions mounted to the first and fifth rail car unit ends are female articulated connector portions.
In another additional feature, the articulated connector portion mounted to each end of the third rail car unit is a male articulated connector portion. In a further feature, the articulated connector portions mounted to the first and fifth rail car unit ends are female articulated connector portions. In another feature, the articulated connector portions mounted to the first and fifth rail car unit ends are male articulated connector portions.
The present invention may be further understood by reference to the following detailed description of the embodiments of the invention, taken in conjunction with the accompanying drawings, in which:
The description which follows, and the embodiments described therein, are provided by way of illustration of an example, or examples of particular embodiments of principles and aspects 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 that follows, like parts are marked throughout the specification and the drawings with the same respective reference numerals.
In terms of general orientation and directional nomenclature, for each of the rail road cars described herein, the longitudinal direction is defined as being coincident with the rolling direction of the car, or car unit, when located on tangent (that is, straight) track. In the case of a car having a center sill, whether a through center sill or stub center sill, the longitudinal direction is parallel to the center sill, and parallel to the side sills, if any. Unless otherwise noted, vertical, upward and downward, are terms that use top of rail TOR as a datum. Unless otherwise noted, the term lateral, or laterally outboard, or transverse refers to a cross-wise distance or orientation relative to the longitudinal centerline of the rail road car, or car unit, indicated as CL-Rail Car. The term “longitudinally inboard”, or “longitudinally outboard” is a lengthwise distance taken relative to a mid-span lateral section of the car, or car unit.
Three-Unit Articulated Rail Road CarA three-unit articulated rail road car is indicated in
Referring to
Intermediate unit 24 has a first end structure 52 supported by shared truck 28 and a second end structure 54 supported by shared truck 30. Intermediate unit 24 includes a body 56 having a pair of deep, spaced apart side beams 58 and 60 extending between, and mounted to, end structures 52 and 54. A well 62 for receiving one or more cargo containers is defined longitudinally between end structures 52 and 54. Side beams 58 and 60 define the sides of well 62. End structure 52 has a stub sill 64 mounted over shared truck 28 and extending to articulation connection 36. Similarly, at the other end of intermediate unit 24, a stub sill 66 is mounted over shared truck 30 and extends to articulated connection 38.
End unit 22 has substantially the same structure as intermediate unit 24 described above, but has an articulated connection at one end only. More specifically, end unit 22 has a first end structure 68 supported by end car truck 32 and a second end structure 70 supported by shared truck 28. Each end structure 68, 70 has a stub sill 72, 74. Stub sill 72 is mounted above shared truck 28 and extends to articulated connection 36. At its distal end stub sill 74 has a standard releasable coupler 76 mounted thereto to allow end unit 22 to be coupled and uncoupled when forming a new train consist. Coupler 76 is of the type to allow interchangeable service with rail road freight cars in general service in North America. End unit 26 is substantially the same as end unit 22 described above. As shown in
Articulated connections 36 and 38 (and the other articulated connections noted herein) are preferably steel articulated connectors, indicated generally in
A conceptual illustration of articulated connector 82 (and 84) is shown in cross-section in
Male member 88 has three rotational degrees of freedom relative to female socket 86 to accommodate curvature, dips and rises in the track over which the rail road car 20 may travel. First, it can yaw about the main pivot axis, as when the car units negotiate a bend or switch. Second, it can pitch about a transverse horizontal axis, as when the car units change slope at the trough of a valley or the crest of a grade. Third, the car units can roll relative to each other, as when entering or leaving super-elevated cross-level track, (that is, banked track). It is not intended that male member 88 have any translational degrees of freedom relative to female socket 86, such that a vertically downward shear load can be transferred from male member 88 into female socket 86, with little or no longitudinal or lateral play. To permit these motions, female socket 86 has spherical seat 106 having an upwardly facing bearing surface describing a portion of a spherical surface. Another mating spherical annular member 108 sits atop seat 106, and has a mating, downwardly facing, bearing surface describing a portion of a sphere such that a spherical bearing surface interface is created. Member 108 also has an upwardly facing surface upon which male member 88 sits. An insert 110 has a cylindrical interface lying against pin 92, and a spherical surface that engages a mating spherical surface of passage 96 lying on the inside face of nose 90. A wedge 112 and wear plate 114 are located between nose 90 and the inner wall, or groin, 116, of female socket 86. Wear plate 114 has a vertical face bearing against wedge 112, and a spherical face bearing against a mating external spherical face of nose 90. Wedge 112 bears against wear plate 114, as noted, and also has a tapered face bearing against a corresponding tapered face of groin 116. The tapers are formed such that as wear occurs, gravity will tend to urge wedge 112 downwardly, tending to cause articulated connector 82 or 84 to be longitudinally slackless.
While in the preferred embodiment, articulated connectors 82 and 84 are of the type in which the main pin is nominally vertical, a person skilled in the art will appreciate that other types of articulated connectors may be used. For instance, articulated connectors in which the main pin is nominally horizontal such as shown in U.S. Pat. No. 5,271,571 of Daugherty, Jr., could also be used.
In the preferred embodiment shown in
While in the preferred embodiment intermediate unit 24 of rail road car 20 is provided with a pair of identical female articulated connector portions 86, symmetry in the articulated connector arrangement may be achieved differently. In an alternative embodiment shown in
In the embodiments described, the symmetrical arrangement of articulated connector portions on intermediate units 24 and 120 may tend to avoid disadvantages associated with the asymmetric arrangements of articulated connector portions. More specifically, the dynamic performance of rail road cars 20 and 118 on the track may tend to be improved generally. The stability of intermediate units 24 and 120 may tend to be enhanced. Moreover, rail road cars 20 and 118 may tend to exhibit similar ride performance characteristics in both directions of travel with comparable L/V values for the truck wheels 47.
Arranging the articulated connector portions as shown in the embodiments of
In the embodiments shown in
With reference to
Each side-bearing arm 126, 128, 130 and 132 is supported by a respective side bearing interface 134 in the nature of a local bearing pedestal having a bearing surface mounted atop truck bolster 40 on each side of truck center plate 48. A side bearing 136 mounted beneath each side-bearing arm 126, 128, 130 and 132 permits a portion of the weight of intermediate unit 22 or 24, as the case may be, to be transferred from the given side-bearing arm through side bearing 136 and side bearing interface 134, to shared truck 28. In addition, side bearings 136 tend to lessen resistance to the movement of the side-bearing arms relative to side bearing interface 134. Side bearings 136 may be constant contact side bearings with or without rollers. However, preferably, side bearings 136 are 5000XT-SSB extended travel, constant contact, roller-less, side bearings manufactured by and available from A. Stucki Company of Pittsburgh, Pa. The use of these side bearings may tend to reduce the forces to which the side-bearing arms are subjected and may tend to contribute to a reduction in the L/V values of the truck wheels.
In
It has been shown that the forces generated in the side-bearing arms of a three-unit railroad car provided with a symmetrical arrangement of articulated connector portions, tend to be smaller than the forces acting on the side-bearing arms of conventional three-unit railroad cars employing asymmetric articulated connection arrangements. This reduction of the forces in the side-bearing arms may tend to reduce vibration in the car and in so doing may tend to discourage fatigue failure and extend the service life of the car.
Forces in the side-bearing arms may also tend to be reduced by having the wide pair of side-bearing arms associated with a rail car unit having a male articulated connector portion and correspondingly, the opposing, relatively narrower, pair of side-bearing arms associated with an adjacent rail car unit having a female articulated connector portion. A further advantage of this arrangement is that it may tend to contribute to a reduction in L/V values for the truck wheels. While in the preferred embodiment of
While it is preferred that the wide pair of side-bearing arms be mounted to a rail car unit having a male articulated connector portion and the relatively narrower pair of side-bearing arms mounted to an adjacent rail car unit having a female articulated connector portion, the arrangement of the wide pair and the narrow pair of side-bearing arms may be reversed.
In the embodiments shown and described above, the opposed pairs of side-bearing arms are in a nested arrangement. However, other alternative side-bearing arm arrangements may also be used. For instance, it is possible to have opposed pairs of equally laterally spaced, side-bearing arms mounted on the adjacent ends of the railcar units.
In an another alternative arrangement of side-bearing arms, opposing pairs of equally laterally spaced, diverging side-bearing arms may be employed. Referring to
In an alternative embodiment, the opposing pairs of side-bearing arms associated with adjacent rail car units may be mutually engaging in a male-female relationship.
Each male side-bearing arm 196, 197 has an upwardly facing bearing surface 198 located opposite downwardly facing bearing surface 195 of female side-bearing arms 187 and 188. A wear pad 203 is located between bearing surfaces 195 and 198 of each male-female pairing of side-bearing arms 187, 196, and 188, 197. In a modification to this arrangement, it would be possible to reverse the orientation of the male and female bearing surfaces such that the bearing surface of female side-bearing arms are upwardly facing and correspondingly, the bearing surface of male side-bearing arms are downwardly facing.
A three-unit articulated rail road car may be constructed using any of the various alternative arrangements of side-bearing arms described and shown in
Car 204 is symmetrical about the mid-span centerline of center unit 212 (indicated in
Center unit 212 has mounted at each end a female articulated connector portion 86 and a relatively wide pair of side-bearing arms 232 and 234 for locating in a nested arrangement with narrower side-bearing arms 236 and 238 of the respective adjacent intermediate unit 210 or 214, as the case may be. Intermediate unit 210 has a conventional asymmetric arrangement of articulated connector portions. Intermediate unit 210 has a male articulated connector portion 88 at the end adjacent center unit 212 and a female articulated connector portion 86 at the opposite end thereof. A pair of side bearing arms 240 and 242 identical to side bearing arms 236 and 238 is mounted to the end of intermediate unit 210 adjacent end unit 206 such that intermediate unit 210 has a symmetrical arrangement of side-bearing arms. End unit 206 is generally similar to end unit 22, but differs in that it has a wide pair of side-bearing arms 244 and 246 for locating in a nested arrangement with narrower side-bearing arms 240 and 242 of intermediate unit 210.
In the embodiment shown in
Other variations to the articulated connection arrangements in a five-unit articulated rail road car are possible. For instance, in cars 204 and 260, only center units 212 and 268 have identical articulated connector portions at each end, namely, two male connector portions 88 at the ends of unit 212, and two female connector portions 86 at the ends of unit 268. The other, intermediate, units 266, 270, each have one male connector portion and one female connector portion. In
Alternatively, a similar arrangement to that of car 248 may be achieved by changing the articulated connector portions associated with each railcar unit from male to female, or female to male, as the case may be. With reference to
In the embodiment shown in
Referring to
The embodiments of
While various alternative side-bearing arm arrangements have been described for railroad cars possessing a configuration of articulated connections similar to that of car 204, these side-bearing arm arrangements may also be employed in cars having different articulated connection configurations.
While various three-unit and five-unit articulated rail road car embodiments have been described in detail, it will be appreciated that other multi-unit articulated rail road cars having a larger number of rail car units can be assembled from the various types of rail car units described above.
Various modifications, variations and changes may be made to the embodiments of the invention described above without departing from the nature, spirit or scope of the invention. The invention is not to be limited to those specific embodiments.
Claims
1. A multi-unit articulated railroad freight car comprising:
- a plurality of freight car body units joined together by articulated connectors to form said multi-unit articulated railroad freight car;
- said multi-unit articulated railroad freight car having a first end and a second end;
- said first and second ends each having a respective releasable coupler by which to couple said multi-unit articulated railroad freight car to other railroad cars in interchange service;
- said freight car body units including a middle car body unit located midway between said first end and said second end of said multi-unit articulated railroad freight car, there being an equal number of car body units of said multi-unit articulated railroad freight car between (a) said middle car body unit and said first end of said multi-unit articulated railroad freight car; and (b) said middle car body unit and said second end of said multi-unit articulated railroad freight car;
- each freight car body unit being joined to a next adjacent neighboring freight car body unit by a respective one of said articulated connectors, there being side-bearing arms of each said freight car body unit mounted laterally to either side of each respective articulated connector;
- said articulated connectors being arranged symmetrically along said multi-unit articulated railroad freight car relative to said middle car body unit; and
- said side-bearing arms being arranged symmetrically along said multi-unit articulated railroad freight car relative to said middle car body unit.
2. The multi-unit articulated railroad freight car of claim 1 wherein said middle car body unit has first and second body unit ends, and male articulated connector portions are mounted at each of said first and second body unit ends of said middle car body unit for mating engagement with corresponding female articulated connector portions of each next adjacent car body units of said multi-unit articulated railroad freight car.
3. The multi-unit articulated railroad freight car of claim 2 wherein each next adjacent car body unit to said middle car body unit has a first car body unit end adjacent to said middle car body unit and a second end distant therefrom, and each said next adjacent car body unit has a male articulated connector portion mounted to said second end thereof.
4. The multi-unit articulated railroad freight car of claim 2 wherein each next adjacent car body unit to said middle car body unit has a first car body unit end adjacent to said middle car body unit and a second end distant therefrom, and each said next adjacent car body unit has a female articulated connector portion mounted to said second end thereof.
5. The multi-unit articulated railroad freight car of claim 1 wherein said middle car body unit has first and second freight car body unit ends, and said middle car body unit is the only one of said freight car body units of said multi-unit articulated railroad freight car to have articulated connector portions of the same gender mounted at both ends.
6. The multi-unit articulated railroad freight car of claim 1 wherein each of said freight car body units has two ends, and every one of said freight car body units having articulated connector portions mounted at both or its respective ends has articulated connector portions of the same gender mounted at both said ends thereof.
7. The multi-unit articulated railroad freight car of claim 1 wherein said middle car body unit has first and second body unit ends, and female articulated connector portions are mounted at each of said first and second body unit ends of said middle car body unit for mating engagement with corresponding male articulated connector portions of each next adjacent freight car body units of said multi-unit articulated railroad freight car.
8. The multi-unit articulated railroad freight car of claim 7 wherein each next adjacent car body unit to said middle car body unit has a first car body unit end adjacent to said middle car body unit and a second end distant therefrom, and each said next adjacent car body unit has a male articulated connector portion mounted thereto.
9. The multi-unit articulated railroad freight car of claim 7 wherein each next adjacent car body unit to said middle car body unit has a first car body unit end adjacent to said middle car body unit and a second end distant therefrom, and each said next adjacent car body unit has a female articulated connector portion mounted thereto.
10. The multi-unit articulated railroad freight car of claim 1 wherein:
- a first neighboring car body unit is connected to a first car body unit end of said middle car body unit;
- a second neighboring car body unit is connected to a second car body unit end of said middle car body unit;
- said middle car body unit has first and second pairs of side-bearing arms extending lengthwise from said first and second ends thereof toward said first and second neighboring car body units respectively;
- said first neighboring car body unit has a first pair of side-bearing arms extending lengthwise therefrom toward said first car body unit end of said middle car body unit;
- said second neighboring car body unit has a first pair of side-bearing arms extending lengthwise therefrom toward said second car body unit end of said middle car body unit;
- said first pair of side-bearing arms of said first end of said middle car body unit and said first pair of said side-bearing arms of said first neighboring car body unit are equally widely laterally spaced; and
- said second pair of side-bearing arms of said second end of said middle car body unit and said first pair of said side-bearing arms of said second neighboring car body unit are equally laterally widely spaced.
11. The multi-unit articulated railroad freight car of claim 2 wherein:
- a first neighboring car body unit is connected to said first body unit end of said middle car body unit;
- a second neighboring car body unit is connected to said second car body unit end of said middle car body unit;
- said middle car body unit has first and second pairs of side-bearing arms extending lengthwise from said first and second ends thereof toward said first and second neighboring car body units respectively;
- said first neighboring car body unit has a first pair of side-bearing arms extending lengthwise therefrom toward said first car body unit end of said middle car body unit;
- said second neighboring car body unit has a first pair of side-bearing arms extending lengthwise therefrom toward said second car body unit end of said middle car body unit; and
- one of (a) and (b) as follows where—
- (a) said middle car body unit has male articulated connector portions mounted at both ends thereof,
- said first pair of side-bearing arms of said first end of said middle car body unit are more widely spaced than said first pair of said side-bearing arms of said first neighboring car body unit; and
- said second pair of side-bearing arms of said second end of said middle car body unit are more widely spaced than said first pair of said side-bearing arms of said second neighboring car body unit; and
- (b) said middle car body unit has female articulated connector portions mounted at both ends thereof,
- said first pair of side-bearing arms of said first end of said middle car body unit are less widely spaced laterally than said first pair of said side-bearing arms of said first neighboring car body unit; and
- said second pair of side-bearing arms of said second end of said middle car body unit are less widely spaced laterally than said first pair of said side-bearing arms of said second neighboring car body unit.
12. The multi-unit articulated railroad freight car of claim 1 wherein:
- one articulated connector of said multi-unit articulated railroad freight car has a male articulated connector portion and a matingly engaged female articulated connector portion; and
- the pair of side-bearing arms mounted to one car body unit bracketing the male articulated connector portion is more widely laterally spaced than is the pair of side-bearing arms mounted to the next adjacent car body unit bracketing the mating female articulated connector portion thereof.
13. The multi-unit articulated railroad freight car of claim 1 wherein: every articulated connector of said multi-unit articulated railroad freight car has a male articulated connector portion and a matingly engaged female articulated connector portion; and at every such articulated connector the respective pair of side-bearing arms mounted to one car body unit to bracket the male articulated connector portion is more widely laterally spaced than is the pair of side-bearing arms mounted to the next adjacent car body unit bracketing the associated mating female articulated connector portion thereof.
14. The multi-unit articulated railroad freight car of claim 1 wherein: one articulated connector of said multi-unit articulated railroad freight car has a male articulated connector portion and a matingly engaged female articulated connector portion; and (a) the respective pair of side-bearing arms mounted to one car body unit bracketing the male articulated connector portion, and (b) the pair of side-bearing arms mounted to the next adjacent car body unit bracketing the associated mating female articulated connector portion thereof, are equally widely laterally spaced.
15. The multi-unit articulated railroad freight car of claim 1 wherein:
- every articulated connector of said multi-unit articulated railroad freight car has a male articulated connector portion and a matingly engaged female articulated connector portion; and at every such articulated connector (a) the respective pair of side-bearing arms mounted to one car body unit to bracket the male articulated connector portion, and (b) the pair of side-bearing arms mounted to the next adjacent car body unit bracketing the associated mating female articulated connector portion thereof, are equally widely laterally spaced.
16. The multi-unit articulated railroad freight car of claim 1 wherein each of said freight car body units is an intermodal well car body unit.
17. The multi-unit articulated railroad freight car of claim 1 wherein each of said articulated connectors is mounted over a shared truck.
18. The multi-unit articulated railroad freight car of claim 1 wherein said railroad freight car has a total of five car body units.
19. A multi-unit articulated intermodal railroad freight car comprising:
- first, second, third, fourth and fifth rail car body units carried on a plurality of rail car trucks;
- the first rail car body unit being joined to the second rail car body unit at a first articulated connection, the second rail car body unit being joined to the third rail car body unit at a second articulated connection, the third rail car body unit being joined to the fourth rail car body unit at a third articulated connection, the fourth rail car body unit being joined to the fifth rail car body unit at a fourth articulated connection;
- each articulated connection having a male articulated connector portion mounted to an end of one rail car body unit, and a mating female articulated connector portion mounted to the end of a next adjacent rail car body unit;
- there is an arrangement of side-bearing arms associated with each articulated connector;
- the first and fifth rail car body units each having an end having a releasable coupler for connection to another railroad car in interchange service;
- the first rail car body unit having an end adjacent the second rail car body unit, that first rail car body unit end having one of the male and female articulated connector portions mounted thereto;
- the fifth rail car body unit having an end adjacent the fourth rail car body unit, that fifth rail car body unit end having one of the male and female articulated connector portions mounted thereto, the articulated connector portion of the fifth rail car body unit end having the same gender as the articulated connector portion of the first rail car body unit end;
- the arrangement of side-bearing arms between (a) the first and second rail car body units, and (b) the fifth and fourth rail car body units, being the same;
- the third rail car body unit having a first end adjacent the second rail car body unit and a second end adjacent the fourth rail car body unit, the first and second ends each having one of the male and female articulated connector portions mounted thereto, the articulated connector portion mounted to the first end of the third rail car body unit being of the same gender as the articulated connector portion mounted to the second end thereof; and
- the arrangement of side-bearing arms between (a) the third and second rail car body units, and (b) the third and fourth rail car body units, being the same.
20. The multi-unit articulated intermodal railroad freight car of claim 19 wherein the articulated connector portion mounted to each end of the third rail car body unit is a female articulated connector portion.
21. The multi-unit articulated intermodal railroad freight car of claim 20 wherein the articulated connector portions mounted to the first and fifth rail car body unit ends are said male articulated connector portions.
22. The multi-unit articulated intermodal railroad freight car of claim 20 wherein the articulated connector portions mounted to the first and fifth rail car body unit ends are said female articulated connector portions.
23. The multi-unit articulated intermodal railroad freight car of claim 19 wherein the articulated connector portion mounted to each end of the third rail car body unit is said male articulated connector portion.
24. The multi-unit articulated intermodal railroad freight car of claim 23 wherein the articulated connector portions mounted to the first and fifth rail car body unit ends are said female articulated connector portions.
25. The multi-unit articulated intermodal railroad freight car of claim 23 wherein the articulated connector portions mounted to the first and fifth rail car body unit ends are said male articulated connector portions.
26. The multi-unit articulated intermodal railroad freight car of claim 19 wherein in each arrangement of side-bearing arms there is a first pair of side-bearing arms mounted to the car body unit to which the male articulated connector portion is mounted, and a second pair of side-bearing arms mounted to the car body unit to which the female articulated connector portion is mounted, and in every such arrangement the lateral spacing of the first and second pairs of side-bearing arms is equal.
27. The multi-unit articulated intermodal railroad freight car of claim 19 wherein in each arrangement of side-bearing arms there is a first pair of side-bearing arms mounted to the car body unit to which the male articulated connector portion is mounted, and a second pair of side-bearing arms mounted to the car body unit to which the female articulated connector portion is mounted, and in every such arrangement the lateral spacing of the first pair of side-bearing arms is greater than the lateral spacing of the second pair of side-bearing arms.
Type: Application
Filed: Sep 2, 2011
Publication Date: Dec 29, 2011
Applicant: National Steel Car Limited (Hamilton)
Inventors: Mohamed Al-Kaabi (Hamilton), Jamal Hematian (Burlington)
Application Number: 13/224,743
International Classification: B61D 15/00 (20060101);