None
This invention pertains to a rail support assembly including a shoulder and a clip engaging the shoulder and arranged to hold a rail in place, the shoulder being shaped to prevent it from rotating with respect to a supporting plate.
Trains running on rails are the most efficient way of transporting all industrial, agricultural as well as consumer products. Typically rails are supported on ties by support assemblies including a bottom plate disposed on ties, a pair of shoulders disposed on top of the plate on either side of a rail and clips made of a steel bar formed into a predetermined shape and arranged to secure the rail. One end of each clip engages a respective shoulder and the rest of the clip rests on top of a rail flange and biases the flange (and therefore the rail) downward toward the plate.
This assembly has been found to be working reasonably well, however one problem with it is that typically railroad cars are extremely heavy and apply tremendous pressure and torsional forces on the rails, especially when rails curve. As a result, sometimes whole sections of rails separate from the ties because the support assemblies are not able to resist these effects.
The present invention provides a solution to this problem.
A rail support assembly for supporting a rail of a railroad track constructed in accordance with this invention includes a plate having a shoulder hole, a shoulder having a boss sized and shaped to fit through said shoulder hole, the boss and shoulder having matching non-rotational shapes selected to prevent the shoulder to rotate with respect to said plate, the plate having a clip receiving member; and an elastic clip having a first end received in the clip receiving member and a rail retaining portion, the elastic clip being positioned by the shoulder to retain the rail on the plate.
In one aspect of the invention, the railroad track includes a tie and The plate includes a mounting member mounting the plate on the tie.
In one aspect of the invention, the plate includes spike holes receiving spikes to attach said plate to said tie.
In one aspect of the invention, the boss and the shoulder hole have a generally square shape with rounded corners.
Referring first to
As shown more clearly in
Optionally, a pad (not shown) may be provided between the rail 16 and the plate 30.
The plate 20 has two segments 34A, 34B disposed between the ridges 32A, 32B and the short edges of the plate 20 as shown. Segment 34A is formed with two smaller holes 40, 42 and a large hole 44. Importantly, large hole 44 has a generally square shape with rounded corners, as at 46.
Referring back to
Attached to plate 30 is a shoulder 52. This shoulder 52 includes a base 54 having a somewhat square configuration with sloping sides, as at 56. The base 54 also has a flat bottom surface 58 with a boss 60 extending downwardly from the surface 58. The boss 60 has the same shape and size as hole 44. The boss 60 has an outer surface with a circumferential groove 64.
The shoulder 52 further includes a clamping wall 70 having a somewhat cylindrical outer surface 72 terminating in a sloping edge 74. The clamping wall 70 is sized and shaped so that when the shoulder 52 is attached to the plate 18, the slopping edge 74 abuts an upper portion of sloping wall 38A on the plate. The clamping wall 70 also includes an inner surface 76. This inner surface 76 has a partial cylindrical shape and forms with wall 38A a horizontal hole 78.
In one embodiment, the clamping wall 70 is provided with an end portion 80 on the inner surface 76. The end portion 80 is formed with a semicircular cutout 82. This cutout forms an opening 84 for hole 78.
In an alternate embodiment, shoulder 52A (also shown in
Assembly 18 further includes a clip 90. The clip 90 has one end 92 that is straight, an intermediate portion 94 and another straight portion 96. The clip 90 preferably has a constant cross section. Its first end 90 is sized and shaped to fit into the hole 78 as shown. In this position, the rest of the clip is positioned so that its other end 94 biases the flange 20 downwardly towards the plate 18. The clip 90 is made of steel or other high strength, somewhat flexible material to insure that the rail is firmly attached to the tie 12 through assembly 18. The flexibility of the clip 90 allows the rail to move up and down slightly as a car goes by on the rail 16. In the embodiment on the right side of
The shoulder 52 is preassembled with the plate 20, for example by press-fitting the boss 62 through hole 44. During this operation, pressure is also applied to the bottom portion of the plate 20 causing some of the material of the plate 20 to enter into and even fill slot 64, as shown at 66 in
Numerous modifications may be made to the invention without departing from its scope as defined in the appended claims.