Railway rolling stock – Locomotives – With land engaging wheel
Reexamination Certificate
1999-03-03
2001-12-04
Morano, S. Joseph (Department: 3617)
Railway rolling stock
Locomotives
With land engaging wheel
C105S075000
Reexamination Certificate
active
06324993
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to railcar moving vehicles which are adaptable both for moving railcars along railroad track and for use on roadways. More particularly, the present invention relates to a vehicle which functions both as a railcar moving vehicle on rails and as a rubber tired highway trailer moving vehicle, and which incorporates an improved hydraulic load-shifting device for vertically and horizontally moving a coupled railcar to transfer a portion of the railcar load to the drive wheels of the railcar moving vehicle in order to improve traction.
2. State of the Art
In the railroad industry, maintenance of way is a critical activity and a major expense. Frequently, when maintenance is needed at a particular location along the right-of-way and heavy equipment or materials are required, a work train and crew are sent to that location to perform the needed repairs. For example, a work train may carry a load of railroad ties and short sections of rail for repairing track, and may include some pieces of heavy equipment for unloading and installing these items. Often, a work train consists of a locomotive pulling a single work car, and the maintenance work can be performed by one or two workers.
However, this approach can be very cost inefficient. Because maintenance of way crews and locomotive crews are differently trained and unable to perform each other's duties, the work train will frequently employ a crew much larger than actually needed at any given time. Obviously, this is costly. Furthermore, the use of a typical locomotive—which may cost in excess of a million dollars—to transport a single car and a few workers is extremely cost inefficient. For these reasons, it would be desirable to have a railcar moving vehicle that can pull one or a few railcars along the railroad track at mainline speeds, but that is not a conventional locomotive, and thus is not as costly as a locomotive, nor requires a full locomotive crew. With such a vehicle a work crew could transport themselves to the work site with their materials and equipment, and perform the work with far less expense for labor and equipment.
Additionally, it would be desirable to have such a railcar moving vehicle that is operable both on rails and on roadways. Such a vehicle would be valuable for maintenance of way crews by allowing a work crew to transport themselves and their equipment by highway to a rail siding where the crew simply transfers their materials and equipment to a waiting railcar, and uses the semi tractor on the rails to pull the work railcar to the work site.
This sort of vehicle would have additional uses, as well. For example, many railroad customers have a need to move railcars and highway trailers around a rail yard or industrial site. However, except for the largest industries, the cost to purchase and maintain a conventional switching locomotive is prohibitive or economically unwarranted. Thus, lightweight, multipurpose railcar moving vehicles have been developed and used to perform many functions normally assigned to switching locomotives, but which may also be used off the track. Such modified or hybrid vehicles are more economical for many industries because of their relatively low cost and high versatility. They allow smaller industries to take advantage of the efficiency and economy of rail transport for heavy freight where otherwise they would not be able to do so.
However, conventional lightweight railcar moving vehicles are still relatively highly specialized, limited production vehicles. The cost per horsepower of these vehicles is significantly higher than the cost of a conventional semi tractor, for example, which enjoys the cost advantages of much greater mass production. Additionally, conventional railcar moving vehicles are not designed or configured to operate on public highways as long or short haul trucks but are confined to an industrial site or switching yard. Many of them do not have the functional and safety equipment required to be street legal, and are designed for low speed operation only, being unable to travel at speeds beyond 15 to 20 miles per hour. Moreover, they cannot operate at top speed for extended periods of time without overheating their hydraulic systems. It would thus be desirable to have a railcar moving vehicle which is constructed from a mass produced vehicle, such as a semi tractor, so as to reduce the acquisition cost of these vehicles. It would also be desirable to have a railcar moving vehicle which is capable of extended operation at high speeds and can be conveniently and legally used for either long or short haul transport of freight on public highways.
Because a loaded railcar may be much heavier than one of these lightweight traction vehicles, various methods have been developed to transfer a portion of the weight of the railcar to the traction vehicle. These methods typically involve some sort of hydraulic system which applies a vertical force to the drawbar of an attached railcar, so as to transfer a portion of the weight of the railcar to the traction vehicle. This transfer helps provide traction to the railcar moving vehicle to allow it to move the railcar without slippage of the drive wheels on the track. However, the devices now known typically involve a coupler extending from one end of the vehicle which lifts the load outboard of the drive and support axles of the vehicle. The load-shifting mechanism does not provide any horizontal movement so as to move the bearing point of the load more directly over the wheels of the traction vehicle. Those knowledgeable in mechanical design will understand that placing the load closer to the nearest supporting axle or between a pair of supporting axles will distribute the load more evenly, and in the case of multiple drive axles, will thereby provide more traction. Additionally, placing the load closer to the nearest supporting axle or between the axles will reduce the moment which tends to lift the end of the vehicle opposite the load. It would thus be desirable to have a railcar moving vehicle which both lifts and forwardly advances a coupled railcar so as to transfer a portion of the load of the railcar to the vehicle and to move the point of bearing of the load closer to the nearest supporting axle, or between supporting axles.
OBJECTS AND SUMMARY OF THE INVENTION
It is therefore an object of the present invention to provide a railcar moving vehicle which lifts the drawbar of a coupled railcar so as to transfer a portion of the weight of the car to the drive wheels of the railcar moving vehicle, and also moves the railcar forward so as to move the bearing point of said weight closer to a point directly above the drive wheels.
It is another object of this invention to provide a railcar moving vehicle that may be used off of railroad tracks for moving trailers on public roadways, and is capable of extended operation at highway speeds both on and off rails.
It is another object of this invention to provide a railcar moving vehicle that is economically constructed from a standard semi tractor.
The above and other objects are realized in a railcar moving vehicle having a load-shifting device for shifting a portion of the weight of a railcar to the railcar moving vehicle. The railcar moving vehicle has a frame, an engine, and at least one pair of drive wheels disposed toward the rearward portion of the frame and configured to ride on railroad track. The load-shifting device is connected to the vehicle frame rearward of the drive wheels, and includes a rearward facing coupler which is configured to transmit vertical and horizontal forces to a coupled railcar. The coupler is moveable by means of the load shifting device between a first lowered position for coupling with a standard railcar coupler, and a second position above and forward of the first position, thereby imposing a portion of the weight of the railcar upon the frame of the railcar moving vehicle, and moving the bearing point of said weight closer to above the drive wheels.
In one
McCarry, Jr. Robert J.
Morano S. Joseph
Thorpe North & Western
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