CA2228707A1 - Improved intermodal vehicle for forming a train of highway trailers - Google Patents

Improved intermodal vehicle for forming a train of highway trailers Download PDF

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Publication number
CA2228707A1
CA2228707A1 CA 2228707 CA2228707A CA2228707A1 CA 2228707 A1 CA2228707 A1 CA 2228707A1 CA 2228707 CA2228707 CA 2228707 CA 2228707 A CA2228707 A CA 2228707A CA 2228707 A1 CA2228707 A1 CA 2228707A1
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Canada
Prior art keywords
coupler
frame means
intermodal vehicle
train
highway trailers
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Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Abandoned
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CA 2228707
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French (fr)
Inventor
Harry O. Wicks
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Individual
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Individual
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Publication of CA2228707A1 publication Critical patent/CA2228707A1/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B61RAILWAYS
    • B61DBODY DETAILS OR KINDS OF RAILWAY VEHICLES
    • B61D3/00Wagons or vans
    • B61D3/16Wagons or vans adapted for carrying special loads
    • B61D3/18Wagons or vans adapted for carrying special loads for vehicles
    • B61D3/182Wagons or vans adapted for carrying special loads for vehicles specially adapted for heavy vehicles, e.g. public work vehicles, trucks, trailers
    • B61D3/184Wagons or vans adapted for carrying special loads for vehicles specially adapted for heavy vehicles, e.g. public work vehicles, trucks, trailers the heavy vehicles being of the trailer or semi-trailer type
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B61RAILWAYS
    • B61DBODY DETAILS OR KINDS OF RAILWAY VEHICLES
    • B61D3/00Wagons or vans
    • B61D3/10Articulated vehicles
    • B61D3/12Articulated vehicles comprising running gear interconnected by loads

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  • Engineering & Computer Science (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Body Structure For Vehicles (AREA)
  • Vehicle Body Suspensions (AREA)

Abstract

An improved intermodal vehicle (10) for forming a train of highway trailers. The intermodal vehicle has an upper frame (42) to which highway trailers (12, 14) may be connected, each of the highway trailers having leading a trailing coupler socket assemblies (22, 24). In the improved design a continuous drawbar (150, 176) is provided. In addition, the upper frame (42) is mounted on a pair of steerable lower frames (30, 32) by springs (52, 54), preferably air springs, their being a pair of springs for each rail wheel (26, 28) of the intermodal vehicle, one spring being positioned before each wheel and one being positioned after each wheel.

Description

IMPROVED INTERMODAL VEHICLE FOR
FORMING A TRAIN OF HIGHWAY TRAILERS

TECHNICAL FIELD
This invention deals with improvements in intermodal rai:L vehicles of the type shown in applicant's prior U.S.
patent 5,291,835 and applicant's prior PCT application PCT/'US94/02212 published under international publication No. W0 94/21503.

BACKGROUND OF THE INVENTION

The above-identified prior art discloses novel intermodal vehicles for use in forming a train of highway trailers including leading and trailing trailers which are inte!rconnected to each other and supported by the intermodal vehicles. The design of the intermodal vehicle of this invention, as well as the prior art referred to above, is intended for use with highway trailers of all 2() configurations, including trailers especially designed to haul so-called "IS0" shipping containers. Each of the highway trailers includes leading and trailing coupler socket assemblies at each end, each of the socket assemblies being apertured for receiving a coupling pin.
The intermodal vehicle is characterized by two rail wheel assemblies, lower frame means in which the rail wheel assemblies are supported, and upper lifting frame means supported on the lower frame means by spring means. The spring means are air springs which are so arranged that when air is removed from the air springs, the upper lifting fram~e means will descend toward the lower frame means, and when air is introduced into the air springs, the upper lifting frame means will rise, at the same time raising any high1~ay trailers which may be resting upon the load carr~ing surfaces. The upper lifting frame means includes leading and trailing upwardly presented load carrying structures, each of the load carrying structures having an upper trailer support surface for engaging the bottom of the trailers. In addition, each of the load carrying structures also carries a coupler tongue which is adapted to be received in the coupler socket assemblies, each tonque being provided with an aperture. A vertically oriented coupling pin is carried by each of the load carrying structures, which coupling pin is vertically moveable from a position below the trailer support surface to a~ position where it passes through the apertured socket assemblies for securing a tongue within the apertured socket assembly. W0 94/21503 discloses that the upper frame means may be in two sections, each independently moveable, whereas the above-identified U.S. patent discloses only a single upper frame. Whether or not a 1'; split upper frame is used, it is still essential that each tongue be supported for limited pivotal, rolling and pitching movement. It is also a feature of the above-referenced designs that the lower frame means are steerable with respect to the upper frame means. In the above-referenced designs, the load carrying structures are shiftable transversely, that is to say, from side to side perpendicular to the longitudinal centerline of the intermodal vehicle to facilitate the alignment of the trailer as it is connected to the intermodal vehicle.
Additional features are disclosed in the foregoing patent and published application.

OBJECTS AND SUMMARY OF THE INVENTION

In the foregoing design, because the tongues must be supported for limited pivotal, rolling and pitching movement, pulling forces are not transmitted directly from one l_ongue to the other, but instead travel through a generally U-shaped force path. This requires that the load carrying structures be capable of transmitting high center-line forces. Therefore, in order to overcome this structural requirement, it is desirable to provide a cont:inuous draw link arrangement between the tongues.
In the design shown in W0 94/21503, four air springs are employed for raising the upper frame means, each of these air springs being mounted above a rail wheel bearing support. In the present design, eight lifting air spring assemblies are provided, two assemblies being associated with each rail wheel bearing support, one before and one after each support. By employing eight air spring assemblies, increased stability is achieved, and increased lifting capacity is also achieved.
In the prior art designs referred to above, each of the air springs was provided with an internal guide surmounted by a shear spring. This form of design is difficult to assemble and maintain, and therefore it is proposed to use new air spring assemblies which overcome the inherent disadvantages of the prior art air springs.
Each of the new air spring assemblies includes a pair of external struts. In the new design, each of the air spring assemblies consists of a single two-convolution air spring and a single one-convolution air spring which is mounted on top of the two-convolution air spring. A mounting plate is disposed above the two-convolution spring and below the one-convolution spring, the mounting plate being guided by the pair of external struts. By using this design, it is not necessary to use the internal guides of the prior art.
In addition, the unguided single convolution spring will permit limited movement of the upper frame means in a horizontal plane with respect to the lower frame means, whic]h movement is constrained by steering dampers.
In W0 94/21503, steering dampers are provided (at 96 in FIG. 3 of W0 94/21503) to restrain horizontal movement of the upper frame means relative to the lower frame means.
In this invention, a new form of steering damper is provided. Each of the steering dampers in this design is connected with the top of an associated single convolution air ~;pring, each damper being mounted for vertical movement RR71~1CA

so l_hat it can move vertically with the top of the associated single convolution air spring.
In applicant's prior designs referred to above, no primary latch is provided to initially hold the trailer in place while the coupler pin is being raised. It is an object of the present invention of provide a latch which "clicks" in place to supply an audible signal that the trailer is positioned correctly.
In the present design each of the coupler pins is raised by an air cylinder. A latch is provided under each coupler pin when raised to prevent the coupler pin from accidentally lowering. The latch is mechanically released by an activating rod. When the activating rod is moved to that: position where the latch is released, it will also enga,ge an enabling valve which will permit air to be supplied to the coupler pin cylinder for withdrawing the coupler pin, that is to say for moving the coupler pin down to a, disengaged position, and which valve will also cause the primary latch to be released.
In the prior art designs referred to above, the trailer supports were permitted to move from side to side when a trailer was being moved onto the upper trailer support surface of the load carrying structure so that the coup~ler pin would pass through the aperture in the coupler 2'; socket assembly on the trailer. However, there was no positive way for controlling the lateral movement of the load carrying structure. In the present design, each of the load carrying structures is transversely actuated by air actuator units, and these structures are locked in their centered position when the upper frame means is raised by the air spring assemblies by a gravity-operated center lock.
It is also a feature of the present design to provide loading ramps on the intermodal vehicle which will be 3~ contacted by the underside of the coupler socket assembly on the trailer during train make-up.

RR71~1CA

It is also a feature of the new design to provide outboard supports which are manually adjustable for height by means of an internal gear box with a jack screw so that the~y can be raised or lowered to contact the under side of the trailer at the front or the rear.
The foregoing design features will be better understood after a consideration of the following detailed description taken in conjunction with the accompanying drawings in which the best mode of practicing this invention is illustrated.

BRIEF DESCRIPTION OF THE DRAWINGS

FIGS. 1 and 2 illustrate how a train can be made up using leading and trailing highway trailers and the intermodal rail vehicle of this invention, FIG. 1 showing the trailers and intermodal vehicle before makeup, with the intermodal vehicle being shown in the down position, and FIG. 2 showing the intermodal vehicle connected to the trailers with the intermodal vehicle in its raised position.
FIG. 3 is the intermodal vehicle including a top frame and leading and trailing lower frames.
FIG. 3A is a view similar to FIG. 3 but not showing 2'i the lower frame.
FIG. 4 is a sectional view of the intermodal vehicle shown in FIG. 3.
FIG. 4A is an enlarged portion of FIG. 4.
FIG. 4B is a further enlarged portion of FIG. 4.
3CI FIGS. 4C - 4E are end and sectional views taken generally along the lines 4C-4C, 4D-4D and 4E-4E in FIG. 3, parts not being shown in FIGS. 4D and 4E for purposes of clarity.
FIGS. 5 and 5A are side elevational views of the intermodal vehicle shown in FIG. 3, FIG. 5 showing the RR7()1CA

intermodal rail vehicle in its raised position, and FIG. 5A
showing it in its lbwered position.
FIGS. 6 and 7 show a single spring assembly, FIG. 6 showing the spring assembly in the raised fully extended position, and FIG. 7 showing the same spring assembly in its lowered position.
FIG. 7A is a section taken generally along the line 7-7 in FIG. 6, parts being eliminated for clarity.
FIG. 8 is a cross sectional view of a steering damper.
FIG. 9 is a plan view of a coupler tongue assembly, coupler tongue support, and load carrying structure.
FIG. 10 is a sectional view taken generally along the line 10-10 in FIG. 9.
FIGS. 11 and 12 are plan and side elevational views of l'; the coupler tongue weldment.
FIGS. 13 and 14 are plan and sectional views of the coupler base weldment, FIG. 14 being taken generally along the line 14-14 in FIG. 13.
FIGS. 15, 16, and 17 show additional details of the trailer support structure assembly.
FIG. 18 is a bottom view of the trailer support assembly of the intermodal rail vehicle, and also shows a coupler pin lock, a primary latch, a coupling pin cylinder enabling valve, and an activating rod.
FIG. 19 is a top plan view of the structure shown in FIG. 18.
FIG. 20 is an end view of the design shown in FIG. 19.
FIG. 21 is a section taken generally along the line 21--21in FIG. 19.
FIG. 22 is an enlarged detail sketch of a portion of the section shown in FIG. 21 showing the operation of the primary latch.
FIG. 23 is a section taken generally along the line 23-23 in FIG. 3, and shows how the trailer supports are tran,versely actuated by air spring units.
FIG. 23A is an enlarged portion of FIG. 23.

CA 02228707 l998-02-04 FIG. 24 shows the gravity operated coupling loc}c assembly, FIG. 24 being taken generally along the line 24-24 in FIG. 3.

DETAILED DESCRIPTION

With reference initially to FIGS. 1 and 2, the novel intermodal rail vehicle of this invention is indicated generally at 10. It is designed to be used with other intermodal rail vehicles of the same design to form a train of highway trailers. In FIGS. 1 and 2, two highway trailers are illustrated, one being a leading highway trailer which is indicated generally at 12, and the other l!i being a trailing highway trailer which is indicated generally at 14. The highway trailers 12 and 14 form no part of the present invention and are of the type shown in WO 94/21503 in FIGS. 10 - 13 and 16. However, it should be noted that each of the highway trailers is provided with a 2() main frame 16, a forward landing gear 18, highway wheel assemblies including wheels 20. In addition, each highway trailer is provided with leading and trailing substantially identical coupling socket assemblies 22 and 24, respectively. Each socket assembly may receive a coupler tongue. In addition, each socket assembly is further provided with apertures (not shown) to facilitate securing the coupler tongue within the socket assembly via a coupler pin carried by the intermodal rail vehicle. As the details of the highway trailers and socket assemblies do not form a part of this invention, and as they are illustrated in WO
94/21503, they will not be described further.
With reference now to FIGS. 3 to 5A, each of the intermodal rail vehicles of this invention include leading and trailing rail axle/wheel assemblies, 26, 28, respectively, which are in turn supported by leading and trailing lower frame means indicated generally at 30, 32, respectively. As each of the rail vehicles is bi-directional, being symmetrical about the transverse centlerline 33 best shown in FIGS. 3B and 5, the term leading and trailing is used for convenience only. Thus, with reference to FIG. 1, the wheels to the left may be considered the leading wheels. Each of the lower frame means include a pair of longitudinal side frames 34 which are ]parallel to rails 35 (FIGS. 4C-4E) and transverse fram/_s 36 (FIG. 3). A reaction link 38 interconnects adjacent transverse frames. The axle/wheel assemblies are in tlilrn supported in the side frames by bearings within bearing supports 40. While the lower frames 30, 32 are structurally different from that shown in W0 94/21503, they are essentially the functional equivalents thereof.
Disposed above the lower frame means 30, 32 is an uppe:r lifting frame means indicated generally at 42. The upper lifting frame means includes a pair of longitudinally extending beams 44, and transversely extending leading, trailing and intermediate beams 45.1, 45.2, and 45.3, respectively. The upper lifting frame further includes laterally outwardly extending spring mounting plates 46, there being two plates associated with each wheel of each axle wheel assembly. Thus, one of the upper beams 44 has welded thereto four upper spring mounting plates, two of them being positioned before wheels and two being posilioned after wheels as best shown in FIG. 3.
SimiLarly, each of the side frames of each of the lower frame means 30, 32 also carries lower spring mounting plates 48 before and after an associated wheel, the spring moun1:ing plates 48 carried by the side frames 34 of the lower frame means being in vertical alignment with the spring mounting plates 46 carried by the upper frame beams 44. Each of the spring mounting plates has two ears 48.1 and 48.2 (FIG. 7A) which are disposed 180 degrees apart from each other, the function of which will be discussed later. It should ~e noted that in this invention, as contrasted with the invention shown in W0 94/21503, there are two air spring assemblies for each rail wheel or a total of eight air spring assemblies for each intermodal vehicle as opposed to four in WO 94/21503. As each spring assembly, which is indicated generally at 50, has a lifting capacity of approximately 16,200 lbs. at 100 psi, all of the spring assemblies have a lifting capacity of approximately 129,600 lbs. at 100 psi. AS can best be appr,_ciated from FIGS. 3 and 3A, a spring assembly is mounted at each corner of each of the generally rectangular lower frames 30, 32.
It is a further feature of this invention that a novel air spring assembly design is employed. Thus, each of the spring assemblies consists of a single two-convolution spri]ng 52 and may further include a single one-convolution spri]ng 54 (FIG. 6). The two springs 52 and 54 of each spring assembly are secured on top of each other, with the one-convolution spring being disposed above the two-convolution spring. A mounting plate 56 is disposed between the two springs 52, 54. The mounting plate 56 is provided with two ears similar to the ears 48.1 and 48.2 on the lower mounting plate, which ears are disposed 180 degr/-es apart from each other. Each ear receives the upper end 58 of a telescoping strut, the lower end 60 of the telescoping strut being secured to the ears on the lower spring mounting plate. As can be seen from a comparison of FIGS. 6 and 7, the upper strut 58 telescopes within the lower strut 60 and, therefore, the struts 58, 60 vertically guide the upper mounting plate. However, there is no such guide for the one-convolution spring 54, and therefore it may move from side to side in a horizontal plane.
Steering means, indicated generally at 61 in FIG. 4D, are provided for steering each of the lower frames 30, 32 with respect to the upper frame. The steering means are of the same type shown in WO 94/21503, and will not be described further. As previously noted, WO 94/21503 discloses the use of steering dampers (96 in WO 94/21503).
However, it is a feature of this invention that novel RR70lCA

steering dampers are provided. These steering dampers, whic]h are indicated generally at 62, are best shown in FIGS. 6, 7 and 8. Each steering damper consists of annular rubber members 64 which are bonded onto an inner sleeve 66 and an outer sleeve 68, respectively, a plurality of annular rubber members being stacked together. The inner sleeve 66 is secured to a mounting bar 70 of circular cros, section, the mounting bar in turn being provided with an internal bore 70.1, circular in cross section, and a threaded bore 70.2 at the other end. A mounting stud 72 extends through the bore 70.1. A steel cylinder 74 is carried by one end of the mounting stud 72, the steel cylinder being secured in place in any desired manner. A
spacer assembly 76 is disposed between the cylinder 74 and the mounting bar 70, the spacers of the spacer assembly being provided with suitable bores to receive stud 72. A
collar 78 is welded to the downturned side 46.1 of the spring mounting plates 46 as best shown in FIG. 8. A
mounting cylinder 80 which has an internal diameter just slightly larger than the external diameter of the collar 78 and l~uter sleeve 68 is used to trap the outer sleeve in an assembled position. To this end, the mounting cylinder is provided with an inner annular member 82 which can bear against one end of the outer sleeve 68. The other end of the outer sleeve 68 is forced into engagement with the collar 78 and is held in place by bolts 84. By proper selection of the rubber, which may be formed from a natural rubber compound having a durometer of approximately 80 on the ~,hore A scale, and which may have an internal diameter of 2'l' and an external diameter of 6-1/2", it is possible to achieve 15,000 lbs. force by 1" of movement of the stud 72.
As can be seen from FIGS. 6 and 7, the steel cylinder 74 is received within a mounting guide 86. Thus, as the upper lifting frame 42 moves vertically with respect to the lower frames 30, 32, the cylinder 74 will travel vertically within the mounting guide 86. However, should the upper lift:ing frame move away from its normal centered position, RR70:LCA

cons:iderable restoring force will be applied by the damper.

The upper lifting frame means 42 is provided with lead:ing and trailing upwardly presented substantially identical load carrying structures indicated generally by the reference numeral 100. Each upwardly presented load carrying structure includes a generally rectangular trailer support plate 102 (FIG. 4A) having an upper trailer support surface 102.1. The support plate is supported upon the uppe] frame means for rocking, rotational, and side-to-side movement. To this end, a pair of transversely spaced apart half--moon side plates or rockers 104 are welded or otherwise rigidly secured to the bottom of the plate 102.
These rockers are in turn supported for rocking movement by rocker supports 106 (FIGS. 16, 17 and 23), the rockers 104 being maintained in contact with the rocker supports 106 by inner and outer guide plates 108. The rocker supports 106 are .Ln turn interconnected with an intermediate plate 110 which has a downwardly extending ring 112 secured thereto, the ring 112 being positioned about an inner ring 114 which is a portion of a coupler base weldment indicated generally at 115 and best shown in FIG. 14. Thus, the ring 114 is welded to a trailer support base plate 116.
As can best be appreciated from an inspection of FIGS.
4 ancl 4A, each of the trailer support base plates 116 is mount:ed for transverse movement on cross frame members 118, 120, 122 of the upper lifting frame; frame member 120 being provided with a transverse slot (no number) which receives a gui.de assembly indicated generally at 124 (FIG. 4A).
While plate 116 rides directly on cross frame member 118, the weldment 115 includes transverse support bars 117.1 and 117.2 which ride upon the cross frame members 120, 122, respectively. In order to facilitate controlled side-to-side movement, a force transmitting frame weldment indic:ated generally at 126 in FIG. 23 is mounted below the trailer support base plate 116. The weldment consists of L-shaped side plates 126.1 and 126.2 which are fastened to the lbottom of plate 116, and a transverse brace 126.3.
Disposed between the frame assembly 126 and the upper frame beam; 44 are first and second air actuators 128.1 and 128.2. As can best be appreciated from an inspection of FIG. 23, when the first actuator 128.1 is charged with compressed air, it will expand and move the coupler base weldlnent 115 sidewards through the force applied to force tran;mitting frame assembly 126. The second actuator 128.2, when charged with air (and when air is discharged from the first actuator 128.1), will move the coupler base weldment the opposite way. This sideward movement of the coupLer base weldment assists in positioning the trailer on top of the load carrying structures l00.
In order to limit side-to-side movement only when the upper frame is in its lowered position shown in FIG. 5A, a coup:Ling centering lock assembly, indicated generally at 130 (FIGS. 4A, 4B and 24) is provided. This centering lock assembly cooperates with a transverse member 131 carried by righ1: and left longitudinally extending members 132.1 and 132.;2 of the lower frame. The lock assembly includes a downwardly extending plate 134 which is rigidly secured to the 1:ransverse support bar 117.2 by a fastener. The lock assembly further includes a lock plate 136 which is slidably supported on the downwardly extending plate 134.
To this end, the lock plate is provided with a pair of laterally spaced apart vertically extending apertures 136. L, 136.2, each of which slidably receive a spacer 138.
One side of the spacer is positioned against the plate 134 and t:he other side is positioned against a surface 136.3 (FIG 4B) of the lock-plate 136, the parts being held toget:her by fasteners 142. The lower end of the lock plate 136 will cooperate with cams 146 carried by beams 44. The operation of the lock mechanism can best be appreciated from FIG. 24. Thus, when the upper frame is in its lowered posit:ion (shown in phantom lines), the lower surface of lock plate 136 will bear against the transverse member 131 causing the corners 136.4 and 136.5 of the lock plate 136 CA 02228707 l998-02-04 to be raised above the cams 146 permitting transverse movement. However, when the upper frame is in its raised position shown in full lines in FIG. 24, the lock plate will drop and will center between the two cams prohibiting transverse movement of the trailer support base plate 116.
The coupler base weldment 115 (FIG. 14) further includes a coupler tongue housing, indicated generally at 148, to be supported by the trailer support base plate 116 adjacent centerline 33 (FIG. 4A). The housing serves to support the apertured coupler tongue weldment 150 (FIGS. 10 - 12,l. The weldment includes a main tongue 152 which is prov:ided with an aperture 152.1, doubler plates 154 (FIGS.
11 a]ld 12) which are welded to the top and bottom sides of the main tongue, and pulling lugs or ears 156 which are also welded. As can best be seen from FIG. 11, the coupler tongue weldment has a generally T-shaped appearance when viewed from the top. The coupler tongue housing 148 includes a vertically extending plate 158. Spaced apart side plates 160.1, 160.2 (FIG. 13) are welded to the plate 158 and are spaced apart a distance sufficient to receive the portion of the coupler tongue weldment having the ears 156 clS can best be seen from FIG. 9. At the inside ends of the side plates 160.1 and 160.2 are coupler tongue guides 162.1 and 162.2. It can be seen from FIG. 9 that the guides 162 restrain the movement of the ears 156 away from the c:enterline 33. The movement of the tongue towards the transverse centerline 33 is restrained by a guide block 164 (FIG. 10) which is mounted on wall 158 between the side walls 160.1 and 160. 2. The tongue weldment is assembled within the C-shaped housing (formed by the vertical plate 158 and spaced apart side plates 160.1, 160.2) by merely dropping the eared portion of the tongue weldment 150 withi.n the C-shaped housing and then by closing the upper end of the C-shaped housing by a cover plate 166 which is secured in place by suitable bolts.
A portion of the weldment 150 is supported at all times by a coupler tongue support 168 (FIGS. 4B and 10) in the *orm of a spring-biased pin, which can telescope within a vertical housing 170. In addition, another portion of the weldment 150 may be supported by a bar 172 carried on the l_railer support plate 102. It can be seen from an inspection of the various figures which show the coupler tongue weldment that the coupler tongue weldment is supported for limited pivotal, rolling, and pitching movement.
As can be seen from FIGS. 3 and 4, it is a feature of the present invention that the leading and trailing coupler tongues 150 work together so that forces transmitted to one are directly transmitted to the other. In other words, the aper1:ured leading and trailing coupler tongue weldments 150 act 1:ogether as a continuous draw bar when they are connected to leading and trailing trailers. To this end, a U-shaped yoke assembly 174 is provided. The yoke assembly includes side members 174.1 and 174.2 (FIG. 13), provided with inturned ends 174.11 and 174.22, respectively, and bight: section 174.3. The side members and bight section are welded to the side plates 160 and vertical plate 158.
In acldition, the bight section is provided with an enlarged portion 174.31, which is a channel shaped member welded to the bight portion.
As can best be seen from FIG. 4A, the leading and trai]ing bight portions 174.3 are interconnected to each other by a continuous draw link or shackle assembly indic:ated generally at 176. The shackle assembly includes an upper member 178 and a lower member 180. A downwardly extending transverse support member 182 is welded to the bottom side of the lower member 180 and is received within a pair of brackets 184, the brackets in turn being secured to the top of transverse beam 45.3. The support member 182 is secured within the brackets 184 by a conventional fastener, not shown. The upper and lower members 178, 180 are a~lso secured together by a fastener 186. As can be seen from FIG. 4A, each of the members 178 and 180 are generally C-shaped in cross section. One or the other may RR70lCA

be provided with an intermediate spacer 188 which is disposed between adjacent enlarged portions 174.31.
Alternatively, the spacer may be a separate piece. It can be appreciated from an inspection of FIGS. 4 and 4A, that if a pulling force is exerted on the leading coupler tongue 150, that this same pulling force will be transmitted to the ltrailing coupler tongue 150 by the continuous draw link 176. Likewise, if a compressive force is exerted on the coupLer tongue, as may happen during braking, the same comp~essive force will be transmitted through the link 176 to the trailing tongue 150. Thus, a continuous drawbar 150, 176 is provided.
When the tongue is assembled within the weldment 115, the aperture 152.1 in the tongue will overlie a corresponding aperture 190.1 (FIG. 4B) formed within a vert:ically extending sleeve 190 which receives a coupling pin :L92. The sleeve 190 is suitably welded or otherwise rigidly secured to the plate 102 with its upper surface 190.2 lying in the same plane as surface 102.1. The coup:Ling pin 192 is adapted to be moved from an initial at rest position shown in FIG. 4B, where the upper end of the coup:Ler pin 192 is disposed slightly below the surface 102.:L of the plate 102, to a raised position where it will pass through the aperture 152.1 and corresponding apertures in a trailer socket assembly 22 or 24 to hold the socket assernbly securely on the load carrying structure 100. The coupLing pin is moved vertically by a double acting air cylinder assembly indicated generally at 194, the cylinder assernbly being secured to the lower end of the sleeve 190.
Any conventional double acting air cylinder 194 may be employed and therefore it will not be described further.
When assembling a trailer onto the intermodal rail vehicle of this invention, it is moved relatively towards the center of the vehicle until coupling can be achieved.
For example, if a leading trailer 12 (FIG. 1) is to be assembled onto the intermodal rail vehicle 10, it will be movecl to the right as viewed in FIG. 1, causing the trailing socket assembly 24 of the highway trailer to ride up upon a loading ramp 196 and then onto the surface 102.1 of t:he support plate 102. This movement will be continued until the leading edge of the socket assembly 24 abuts against the bar 172. At this time, a primary latch mechanism, indicated generally at 200 (FIG.~B ), will engage a portion of the socket assembly and hold it on the support plate 102 until such time as the pin 192 can secure the socket assembly to the intermodal rail vehicle.
As can best be seen from FIGS. 4A, 18, 21, 22, and 25, the primary latch assembly consists of a latch weldment 202.1 - 202.4 rotatably mounted on a transversely extending pin 204 carried by a pair of depending ears 206 (FIG. 18) secured to plate 208. The plate 208 is in turn rigidly secured in any conventional manner to the trailer support plate 102. As can be seen from FIGS. 4B, 18, and 22, the latch has a hook portion 202.1 which is adapted to engage the side of a lug (not shown) carried by the coupler socket assembly 22. The hook portion 202.1 is carried by two spaced apart arms 202.11 and 202.12 which are welded at the end remote from the hook to a sleeve 202.4. The arms 202.11 and 202.12 are braced by gussets, only gusset 202.13 being shown. The hook portion 202.1 is normally biased to its upper position by springs 210 which are disposed between bosses 208.1 on the plate 208 and bosses 202.21 carried by a first lever 202.2 of the latch. The latch also includes a second lever 202.3 which is adapted to be engaged by an air bag 212 supported by a saddle assembly 214, the saddle assembly being in turn mounted upon the intermediate plate 110. When the socket assembly 22 is move~ onto the plate 102, the latch will initially be cammed downward as the lug on the socket assembly passes over the hook portion 202.1. After the lug has completely passed over the hook portion, the springs 210 will force the hook portion upwardly with a loud click. When it is desired to move the trailer off the intermodal vehicle of this invention, it will be necessary to release the latch mechanism, and to this end the air bag is inflated which will cause the lever 202.3, as viewed in FIG. 22, to move in a counterclockwise direction, lowering the hook portion 202.:L. The first and second lever portions 202.2 and 202.3 are i~ormed from a single piece of angle iron which is welded to a sleeve portion 202.4 of the latch.
It should be noted that the movement of the coupler pin :L92 is controlled by an air cylinder assembly 194. In order to prevent the inadvertent descent of the coupler pin 192, a coupler lock assembly indicated generally at 220 in FIG. 18 is provided. The coupler lock assembly includes a lock pin 222 which is adapted to pass through an aperture l90.~L in the sleeve 190 (FIG. 16). The lock pin 222 is carriLed by a support plate 224 and is normally biased by a spring 226 to the centerline of the coupler pin. When the coup]Ler pin 192 is raised by the air cylinder assembly 194, the ]Lock pin 222 will snap in behind the raised pin 192 after it has attained its raised position.
To lower the coupling pin 192 with the air cylinder assembly 194, it is essential that the lock pin 222 be retracted. This is done manually. To this end, a pin 228, which engages the lock 222, is moved away from the centerline of the coupling pin 192 by a lever 230, which lever is caused to be moved by an activating rod 232.
Thus, with reference to FIG. 18, it can be seen that the coup]Ler pin is normally spring biased to the position illustrated in full lines, but that when the handle 232.1 on rod 232 is pulled from the full line position to the dotted line position, the lever 230 will pivot about pin 234 moving the lock pin away from the centerline of the coup]er pin 192 so that it can descend. When this happens, a flag 230.1 will be moved from its "safe" position (see FIG. 19) to another position where it will indicate that rail transport of the highway vehicle may be unsafe. At the same time the handle is moved from its full line posit:ion to its dotted line position, a coupler pin cylinder enabling valve, indicated generally at 236, will be engaged, which will permit the operation of the air cylinder assembly 194 to permit retraction of the coupler pin 192, and which will also introduce air into the air bag 212, to cause the primary latch 202.1 to moved to its relei~sed position shown in dotted lines in FIG. 22.
Finally, with reference to FIGS. 3 and 5, in order to provide for improved lateral stability of the highway trailers when mounted upon the intermodal rail vehicle of this invention, outboard supports 240 are provided. These supports are mounted upon the upper frame and may be manually adjusted for height via an internal gear box with a jack screw.
The operation of the intermodal rail vehicle of this invention should be apparent from the above to those having ordinary skill in the art. As the intermodal rail vehicles are bi-directional, and as the trailers designed for use with the rail vehicles of this invention are provided with virtually identical leading and trailing coupler socket assemblies, it is very easy to make up a train of highway trai:Lers. In addition, such a train has improved stability over those previously known due to the unique design features of this intermodal rail vehicle. Finally, by the present design, the intermodal rail vehicles can be fabr:icated without undue expense.
It should be understood that applicant does not intend to be limited to the particular details described above and illustrated in the accompanying drawings. Thus, it is the desire of the inventor of the present invention that it be clearly understood that the embodiments of the invention, while preferred, can be readily changed and altered by one skil]Led in the art and that these embodiments are not to be Limit:ing or constraining on the form or benefits of the inverltion .
What is claimed is:

Claims (15)

1. An intermodal vehicle for forming a train of highway trailers including leading and trailing highway trailers which are interconnected to each other and supported by the intermodal vehicle for travel upon railroad tracks, each of the highway trailers including a leading coupler socket assembly at one end and a trailing coupler socket assembly at the other end, each intermodal vehicle having two rail wheel assemblies, lower frame means supported on the two rail wheel assemblies, upper frame means supported on the lower frame means, the upper frame means including leading and trailing load carrying structures;
characterized by the provision of a continuous coupler tongue mounted on the upper frame means and extending above the leading and trailing load carrying structures, each end of the continuous coupler tongue capable of being received within coupler socket assemblies of associated highway trailers supported on associated load carrying structures to connect the associated trailer to the intermodal vehicle.
2. The intermodal vehicle for forming a train of highway trailers as set forth in claim 1 wherein the leading and trailing load carrying structures are mounted on the upper frame means for lateral movement, and further characterized by the provision of air operated actuator units for laterally moving the load carrying structures from side to side to assist in positioning the trailer on top of the load carrying structures.
3. The intermodal vehicle for forming a train of highway trailers as set forth in claim 1 wherein each of the coupler socket assemblies has vertically aligned spaced apart apertures, wherein each end of the continuous coupler tongue is provided with a vertically extending aperture, wherein leading and trailing vertically oriented coupler pins are carried by the upper lifting frame means, and wherein coupler pin lifting means are provided to effect a coupling between one end of the coupler tongue and a coupler tongue assembly of an associated trailer.
4. The intermodal vehicle for forming a train of highway trailers as set forth in claim 3 further characterized by the provision of a primary latch associated with each of the load carrying structures to initially hold the associated trailer in place while the coupler pin is being raised.
5. The intermodal vehicle for forming a train of highway trailers as set forth in claim 4 wherein the primary latch will "click" into place to supply an audible signal that the trailer is positioned properly.
6. The intermodal vehicle for forming a train of highway trailers as set forth in claim 3 further characterized by the provision of extensible and retractable means associated with each of the coupler pins to raise and lower the coupler pin, wherein a latch is provided for each coupler pin, wherein a mechanical latch operating assembly is provided for moving the latch either to a stop position under the coupler pin when it is in its raised position to prevent it from being accidentally lowered or away from the coupler pin to a non-stopping position to permit the coupler pin to be lowered from its raised position, and wherein an enabling mechanism is provided, the enabling mechanism being engaged by the mechanical latch operating assembly when the latch is in its non-stopping position to permit the extensible and retractable means to lower the coupler pin.
7. The intermodal vehicle for forming a train of highway trailers as set forth in claim 6 wherein the extensible and retractable means is an air cylinder assembly.
8. An intermodal vehicle for forming a train of highway trailers supported by the intermodal vehicle for travel upon railroad tracks, each intermodal vehicle having two rail wheel assemblies, there being two wheels in each assembly, a pair of lower frame means supported on the two rail wheel assemblies, and upper frame means supported on the lower frame means for vertical movement;
characterized by the provision of spring assemblies, there being one pair of spring assemblies for each wheel, one spring assembly being positioned before each wheel and one being positioned after each wheel.
9. The intermodal vehicle for forming a train of highway trailers as set forth in claim 8 wherein the spring assembly includes an air spring assembly.
10. An intermodal vehicle for forming a train of highway trailers including leading and trailing highway trailers which are interconnected to each other and supported by the intermodal vehicle for travel upon railroad tracks, each of the highway trailers including a leading coupler socket assembly at one end and a trailing coupler socket assembly at the other end, each intermodal vehicle having two rail wheel assemblies, each assembly having a pair of wheels, a pair of lower frame means supported on the two rail wheel assemblies, and upper frame means supported on the lower frame means for vertical movement, the upper frame means including leading and trailing load carrying structures;
characterized by the provision of air spring assemblies, there being one pair of air spring assemblies associated with each wheel, one spring assembly before and one after.
11. The intermodal vehicle for forming a train of highway trailers as set forth in claim 10 wherein the leading and trailing load carrying structures are mounted on the upper frame means for lateral movement, further characterized by the provision of air operated actuator units for laterally moving the load carrying structures from side to side, and further characterized by the provision of a gravity-operated center lock for locking the load carrying structures in their centered position when the upper frame means is in its raised position.
12. The intermodal vehicle for forming a train of highway trailers as set forth in either claim 1 or claim 10 further characterized by the provision of a loading ramp associated with each of the load carrying structures to facilitate the loading of a trailer onto the load carrying structure as the intermodal vehicle and the trailer are moved towards each other.
13. The intermodal vehicle for forming a train of highway trailers as set forth in either claim 1 or claim 10 further characterized by the provision of a pair of spaced apart outboard supports mounted to the sides of each of the leading and trailing load carrying structures, which supports can be manually adjusted to contact the underside of a trailer mounted on the associated load carrying structure.
14. The intermodal vehicle for forming a train of highway trailers as set forth in either claim 9 or claim 10 wherein a plurality of struts are provided external to the air spring assemblies to guide the movement of the upper frame means relative to the lower frame means.
15. The intermodal vehicle for forming a train of highway trailers as set forth in claim 14 wherein steering dampers are provided adjacent one end of the struts to act to restrain horizontal movement of the upper frame means relative to the lower frame means.
CA 2228707 1997-02-04 1998-02-04 Improved intermodal vehicle for forming a train of highway trailers Abandoned CA2228707A1 (en)

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US3716297P 1997-02-04 1997-02-04
US60/037,162 1997-02-04

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EA014899B1 (en) 2006-12-20 2011-02-28 Рэйлраннер Н.А., Инк. Bimodal container chassis

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US5040466A (en) * 1983-02-24 1991-08-20 Railmaster System, Inc. Train of highway trailers and method of making
US4841872A (en) * 1985-06-03 1989-06-27 Railmaster System, Inc. Railway train of highway vehicles, and components therefor
US5107772A (en) * 1990-06-22 1992-04-28 Jacques Viens Rail bogie for transporting semi-trailers with vertically movable king pin assemblies on common frame
US5291835A (en) 1993-03-25 1994-03-08 Railrunner Systems, Inc. Retractable intermodal vehicle
DE19515110A1 (en) * 1995-04-25 1996-10-31 Krone Bernhard Gmbh Maschf Axle set for rail transport with four wheels and two saddle couplings

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