1. Technical Field
The present invention relates in general to railroad guide rails and, in particular, to an improved system, method, and apparatus for supporting a railroad guide rail.
2. Description of the Related Art
A guide or guard rail aligns the wheels on railroad cars to prevent damage to track components. Guide rails also force the wheels to follow a desired path where the wheels may derail. Guide rails are located in railroad tracks adjacent the high side of curves, across bridges, adjacent turnout frogs, and at elevated sections of track. At turnout frogs, guide rails divert the path of one wheel of a railroad car to cause the opposite wheel to be drawn away from the turnout frog. Otherwise, a wheel may strike the frog and cause undesired wear or damage to the frog.
Some guide rails are not adjustable and are replaced when the guide rail face has worn such that it no longer properly guides the path of the non-guarded wheels. Some guide rails are formed from track rail that is parallel to the guarded running rail. Installation of the heavy track rail was difficult and somewhat imprecise. In many instances, the guide rail assembly is mounted on the same tie plates as that of the traffic rail, thus linking the installation points of the guide rail to the tie spacing. Other guide rails are fastened to the traffic rail. Such fastening often requires drilling of the running rail, which makes installation difficult.
Still other guide rails are formed from rolled steel. The guide bars are mounted on a bracket or brace and provide a guide face parallel to the gage line of a running rail. The guard bars and the support brackets or braces are separate items, and only the guard bar is replaced when the guard face wears beyond an acceptable limit. Again, some guide rail assemblies do not have an adjustment to compensate for the wear of the guard face. However, some recent designs provide an adjustment to compensate for wear of the guard face.
Most guide rail assemblies are secured to tie plates for traffic rails or directly to the traffic rails themselves by threaded fasteners or by welding. Threaded fasteners require a high level of maintenance due to their tendency to loosen over a period of time. Those guide rail assemblies that are affixed to the running rail and require drilling of the running rail are time consuming and difficult to install and maintain. Thus, an improved guide rail support system that overcomes the problems associated with the prior art would be desirable.
One embodiment of a system, method, and apparatus for a guide rail support assembly comprises a brace and a guide rail positioned on the brace. The guide rail extends in a longitudinal direction. A hook device has a base and two or more hooks extending from the base perpendicular to the guide rail. The hooks extend around the brace and secure the guide rail to the brace. The brace has no apertures, such that the hooks extend completely around the brace without penetrating any portion of the brace. Adjustment shims are positioned adjacent the brace. A spring clip is mounted adjacent the base and the adjustment shims for securing the hook device to the brace.
The foregoing and other objects and advantages of the present invention will be apparent to those skilled in the art, in view of the following detailed description of the present invention, taken in conjunction with the appended claims and the accompanying drawings.
So that the manner in which the features and advantages of the invention, as well as others which will become apparent are attained and can be understood in more detail, more particular description of the invention briefly summarized above may be had by reference to the embodiment thereof which is illustrated in the appended drawings, which drawings form a part of this specification. It is to be noted, however, that the drawings illustrate only an embodiment of the invention and therefore are not to be considered limiting of its scope as the invention may admit to other equally effective embodiments.
Referring to
The illustrated guide rail support assembly 21 comprises a brace 31 that is directly mounted (e.g., welded) to plate 23. The brace 31 has a horizontal front ledge 33 and a vertical rear wall 35 that is opposite the front ledge 33. In the embodiment shown, the vertical rear wall 35 has no horizontal ledge extending therefrom, unlike prior art designs. Moreover, the brace 31 has no apertures in this embodiment. The guide bar 27 is positioned on the front ledge 33 of the brace 31 against a vertical front wall 37. The guide bar 27 has a longitudinal length “L” that defines a longitudinal direction.
The assembly 21 also includes a hook device 41 having, in one embodiment, a tubular base 43 and a plurality of hooks 45 (e.g., two) extending from the tubular base 43. The hooks 45 extend completely around the lateral sides 47 (
In one embodiment, the base 43 of the hook device 41 comprises a horizontal tubular base extending in the longitudinal direction for receiving a straight end of the spring clip 61. The hook device 41, including the horizontal tubular base 43, has a longitudinal width 67 (
In an alternate embodiment (
Referring now to
Referring now to
Another alternate embodiment of a guide rail support assembly 121 is depicted in
Guide rail support assembly 121 comprises a brace 131 that is mounted to plate 123. The brace 131 has a horizontal front ledge 133 (
The guide bar 127 is positioned on the front ledge 133 of the brace 131 against a vertical front wall 137. The guide bar 127 has a longitudinal length “L” that defines a longitudinal direction. The assembly 121 includes a hook device 141 for engaging and retaining the guide bar 127. The hook device 141 has, in one embodiment, a tubular base 143 and a plurality of hooks 145 (e.g., two) extending from the tubular base 143. The hooks 145 extend completely around the lateral sides 147 (
In one embodiment, there is a longitudinal clearance between the hooks 145 and the lateral walls 147 of brace 131. In addition, each hook 145 includes an outer concave recess 146 that provides additional clearance for the installation of spikes in holes 170. Accordingly, a second sweep 148 (i.e., additional thickness) is formed in the hooks 145 to increase the amount of material at the stressed ends of the hooks 145.
A spacer block 151 is positioned between the base 143 and the brace 131. The embodiment shown includes a vertical stop 132 for limiting the upward vertical movement of hook device 141 during its installation to form assembly 121. The illustrated embodiment comprises one thin, horizontal, elongated rectangular vertical stop 132 on each lateral side 147 of brace 131, although many other shapes also may be used. The vertical stops 132 contact an upper portion of hook device 141 between base 143 and hooks 145 as shown.
One or more adjustment shims 153 having one or more thicknesses are positioned adjacent to the base 143 between the spacer block 151 and the rear wall 135 of the brace 131. Alternatively, shims 153 may be positioned between spacer block 151 and spring clip 161. Shims 153 also may be initially positioned between the guide rail 127 and the front wall 137 of the brace 131 as described above for previous embodiments, depending on the application. The spacer block 151 has one or more lips that land on one or more shelves adjacent base 143. In one embodiment, shims 153 have L-shaped portions that land in a cavity in spacer block 151 to prevent vertical movement. The shims 153 are secured from lateral movement by brace 131, and from longitudinal movement by their bent wings (
A spring clip 161 is mounted to the base 143 and engages the spacer block 151 for securing the hook device 141 to the brace 131. At least a portion of the rear surface 152 of the spacer block 151 is diagonally sloped toward brace 131. The upper end of spacer block 151 is wider in the lateral direction than the lower end of spacer block 151. A semi-cylindrical recess (not shown) is formed in a middle portion of spacer block 151 for receiving the lower end 164 of spring clip 161. The negative slope of rear surface 152 locates the spring clip 161 in a slightly counterclockwise rotated position from the previous embodiment, such that the upper end 162 of the spring clip 161 is located rearward (e.g., to the left in
In one embodiment, the base 143 of the hook device 141 comprises a horizontal tubular base extending in the longitudinal direction for receiving a straight end of the spring clip 161. The hook device 141, including the horizontal tubular base 143, has a longitudinal width 167 (
The life of guide bar 127 may be extended after it is worn by relocating one or more of the shims 153 from rear surface 135 to front surface 137. The L-shaped lip on shims 153 can seat in recess 181 (
The present invention has several advantages, including the ability to provide higher frictional resistance to longitudinal movement of the guide rail relative to the brace compared to conventional single-hook designs. The configuration of the tubular base of the hook device allows spring clips to be inserted in a straighter direction and with greater ease, thereby reducing the chance that the clip will jump out when first being driven in and/or finally removed. In contrast, some single hook designs can cause the clip to hit an installer on the first strike when driving the clip in, or on the last strike when driving the clip out. With the single upright or brace welded to the plate, the open area around the brace is increased. This provides clearance for hold down spike holes on both sides of the brace, whereas single hook designs with two welded uprights or braces do not provide as much clearance.
While the invention has been shown or described in only some of its forms, it should be apparent to those skilled in the art that it is not so limited, but is susceptible to various changes without departing from the scope of the invention.
This application is a continuation-in-part of U.S. patent application Ser. No. 11/243,765, filed on Oct. 5, 2005, and is incorporated herein by reference in its entirety.
Number | Name | Date | Kind |
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1463943 | Fallon | Aug 1923 | A |
2929562 | Hosbein | Mar 1960 | A |
4265401 | Jackson | May 1981 | A |
5148980 | Fritz et al. | Sep 1992 | A |
5176318 | Young et al. | Jan 1993 | A |
6279833 | Schwiede | Aug 2001 | B1 |
Number | Date | Country | |
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20070075155 A1 | Apr 2007 | US |
Number | Date | Country | |
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Parent | 11243765 | Oct 2005 | US |
Child | 11454516 | US |