AUTO-RACK RAILROAD CAR BRIDGE PLATE AND BRIDGE PLATE LOCKING ASSEMBLY

Abstract

The present disclosure provides an auto-rack bridge plate locking assembly including a support bracket, a support block, a guide tube, a slidable locking pin partially positioned in the guide tube, a handle removably attachable to the locking pin by a removable roll pin, a fixed pivot pin partially positioned in the guide tube, and a spring positioned in the guide tube between the pivot pin and the locking pin. The present disclosure also provides an auto-rack railroad car bridge plate including a plate configured to extend from one auto-rack railroad car to an adjacent auto-rack railroad car, and such locking assembly connected to the plate and configured to pivotally attach the plate to one of the auto-rack rail road cars.

Claims

1. An auto-rack railroad car bridge plate locking assembly comprising: (a) a support bracket; (b) a guide tube connected to the support bracket; (c) a slidable locking pin partially positioned in the guide tube; (d) a handle removably attached to the locking pin by a removable roll pin; (e) a pivot pin partially positioned in and connected to the guide tube; and (f) a spring positioned in the guide tube between the pivot pin and the locking pin, said spring configured to apply a biasing force against the locking pin to push the locking pin in an outward direction from the guide tube.

2. The auto-rack railroad car bridge plate locking assembly of claim 1, wherein: (i) the support bracket includes a first section, a second section, a third section, a fourth section, and a fifth section, the second section defining a pin removal opening that enables the roll pin to be removed from the locking pin and the handle; (ii) the guide tube defines a central cylindrical lumen, cylindrical openings at opposite ends, a first cylindrical roll pin opening, a second cylindrical roll pin opening, and an elongated handle opening; (iii) the slidable locking pin defines aligned cylindrical roll pin openings and a cylindrical handle receiving opening; (iv) the handle includes an attachment section and a gripping section, the attachment section defining a cylindrical roll pin opening; and (v) the pivot pin includes a body having a first cylindrical section, an intermediate cylindrical section, and a second cylindrical section.

3. The auto-rack railroad car bridge plate locking assembly of claim 2, wherein the guide tube is cylindrical, the slidable locking pin is cylindrical, the pivot pin is cylindrical, and the spring is cylindrical.

4. The auto-rack railroad car bridge plate locking assembly of claim 2, which includes a support block positioned between the support bracket and the guide tube.

5. The auto-rack railroad car bridge plate locking assembly of claim 4, wherein said support block is connected to the support bracket and to the guide tube.

6. The auto-rack railroad car bridge plate locking assembly of claim 5, wherein the support block is welded to the support bracket and to the guide tube.

7. The auto-rack railroad car bridge plate locking assembly of claim 4, wherein the support block is positioned between the third section of the support bracket and the guide tube.

8. The auto-rack railroad car bridge plate locking assembly of claim 1, which includes a support block positioned between the support bracket and the guide tube.

9. The auto-rack railroad car bridge plate locking assembly of claim 8, wherein the support block is connected to the support bracket and to the guide tube.

10. The auto-rack railroad car bridge plate locking assembly of claim 9, wherein the support block is welded to the support bracket and to the guide tube.

11. The auto-rack railroad car bridge plate locking assembly of claim 1, wherein the support bracket includes a first section, a second section, a third section, a fourth section, and a fifth section, the second section defining a pin removal opening that enables the roll pin to be removed from the locking pin and the handle.

12. The auto-rack railroad car bridge plate locking assembly of claim 1, wherein: (a) the guide tube defines a central cylindrical lumen, cylindrical openings at opposite ends, a first cylindrical roll pin opening, a second cylindrical roll pin opening, and an elongated handle opening; and (b) the slidable locking pin defines aligned cylindrical roll pin openings and a cylindrical handle receiving opening.

13. The auto-rack railroad car bridge plate locking assembly of claim 1, wherein the handle includes an attachment section and a gripping section, and wherein the attachment section defines a cylindrical roll pin opening.

14. The auto-rack railroad car bridge plate locking assembly of claim 1, wherein the pivot pin includes a body having a first cylindrical section, an intermediate cylindrical section, and a second cylindrical section.

15. The auto-rack railroad car bridge plate locking assembly of claim 1, wherein the support bracket, the guide tube, the locking pin, the handle, the roll pin, the pivot pin, and the spring are all made of steel.

16. An auto-rack railroad car bridge plate comprising: a plate configured to extend from one auto-rack railroad car to an adjacent auto-rack railroad car; and a locking assembly connected to the plate and configured to pivotally attach the plate to one of the auto-rack rail road cars, said locking assembly including: (a) a support bracket; (b) a guide tube connected to the support bracket; (c) a slidable locking pin partially positioned in the guide tube; (d) a handle removably attached to the locking pin by a removable roll pin; (e) a pivot pin partially positioned in and connected to the guide tube; and (f) a spring positioned in the guide tube between the pivot pin and the locking pin, said spring configured to apply a biasing force against the locking pin to push the locking pin in an outward direction from the guide tube.

17. The auto-rack railroad car bridge plate of claim 16, wherein: (i) the support bracket includes a first section, a second section, a third section, a fourth section, and a fifth section, the second section defining a pin removal opening that enables the roll pin to be removed from the locking pin and the handle; (ii) the guide tube defines a central cylindrical lumen, cylindrical openings at opposite ends, a first cylindrical roll pin opening, a second cylindrical roll pin opening, and an elongated handle opening; (iii) the slidable locking pin defines aligned cylindrical roll pin openings and a cylindrical handle receiving opening; (iv) the handle includes an attachment section and a gripping section, the attachment section defining a cylindrical roll pin opening; and (v) the pivot pin includes a body having a first cylindrical section, an intermediate cylindrical section, and a second cylindrical section.

18. The auto-rack railroad car bridge plate of claim 17, wherein the guide tube is cylindrical, the slidable locking pin is cylindrical, the pivot pin is cylindrical, and the spring is cylindrical.

19. The auto-rack railroad car bridge plate of claim 17, which includes a support block positioned between the support bracket and the guide tube.

20. The auto-rack railroad car bridge plate of claim 19, wherein said support block is connected to the support bracket and to the guide tube.

21. The auto-rack railroad car bridge plate of claim 20, wherein the support block is welded to the support bracket and to the guide tube.

22. The auto-rack railroad car bridge plate of claim 19, wherein the support block is positioned between the third section of the support bracket and the guide tube.

23. The auto-rack railroad car bridge plate of claim 16, which includes a support block positioned between the support bracket and the guide tube.

24. The auto-rack railroad car bridge plate of claim 23, wherein the support block is connected to the support bracket and to the guide tube.

25. The auto-rack railroad car bridge plate of claim 24, wherein the support block is welded to the support bracket and to the guide tube.

26. The auto-rack railroad car bridge plate of claim 16, wherein the support bracket includes a first section, a second section, a third section, a fourth section, and a fifth section, the second section defining a pin removal opening that enables the roll pin to be removed from the locking pin and the handle.

27. The auto-rack railroad car bridge plate of claim 16, wherein: (a) the guide tube defines a central cylindrical lumen, cylindrical openings at opposite ends, a first cylindrical roll pin opening, a second cylindrical roll pin opening, and an elongated handle opening; and (b) the slidable locking pin defines aligned cylindrical roll pin openings and a cylindrical handle receiving opening.

28. The auto-rack railroad car bridge plate of claim 16, wherein the handle includes an attachment section and a gripping section, and wherein the attachment section defines a cylindrical roll pin opening.

29. The auto-rack railroad car bridge plate of claim 16, wherein the pivot pin includes a body having a first cylindrical section, an intermediate cylindrical section, and a second cylindrical section.

30. The auto-rack railroad car bridge plate of claim 16, wherein the support bracket, the guide tube, the locking pin, the handle, the roll pin, the pivot pin, and the spring are all made of steel.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0014] FIG. 1 is a side perspective view of an auto-rack railroad car configured to transport a plurality of vehicles.

[0015] FIG. 2A is a top perspective view of an auto-rack railroad car bridge plate with the auto-rack railroad car bridge plate locking assembly of one example embodiment of the present disclosure attached thereto.

[0016] FIG. 2B is a bottom perspective view of the auto-rack railroad car bridge plate of FIG. 2A with the auto-rack railroad car bridge plate locking assembly of FIG. 2A attached thereto.

[0017] FIG. 3A is a bottom front perspective view of the auto-rack railroad car bridge plate locking assembly of FIGS. 2A and 2B.

[0018] FIG. 3B is a rear top perspective view of the auto-rack railroad car bridge plate locking assembly of FIG. 3A.

[0019] FIG. 4 is a bottom front perspective view of the auto-rack railroad car bridge plate locking assembly of FIGS. 3A and 3B, with the guide tube shown in phantom to illustrate the components in the guide tube.

[0020] FIG. 5 is a bottom exploded perspective view of the auto-rack railroad car bridge plate locking assembly of FIGS. 3A and 3B.

[0021] FIG. 6 is an enlarged bottom front perspective view of the support bracket of the auto-rack railroad car bridge plate locking assembly of FIGS. 3A and 3B.

[0022] FIG. 7 is an enlarged top rear perspective view of the support bracket of the auto-rack railroad car bridge plate locking assembly of FIGS. 3A and 3B.

[0023] FIG. 8 is an enlarged top front perspective view of the guide tube of the auto-rack railroad car bridge plate locking assembly of FIGS. 3A and 3B.

[0024] FIG. 9 is an enlarged top rear perspective view of the guide tube of the auto-rack railroad car bridge plate locking assembly of FIGS. 3A and 3B.

[0025] FIG. 10 is an enlarged bottom front perspective view of the locking pin of the auto-rack railroad car bridge plate locking assembly of FIGS. 3A and 3B.

[0026] FIG. 11 is an enlarged bottom perspective view of the fixed pivot pin of the auto-rack railroad car bridge plate locking assembly of FIGS. 3A and 3B.

[0027] FIG. 12 is an enlarged top perspective view of the handle of the auto-rack railroad car bridge plate locking assembly of FIGS. 3A and 3B.

DETAILED DESCRIPTION

[0028] Referring now to the drawings and particularly to FIG. 1, a typical auto-rack car 10 includes a frame 12 supported by trucks 14a and 14b, each of which has several wheels 16 configured to roll along conventional railroad tracks 18. The frame 12 supports two opposing sidewalls 20a and 20b and a roof 22. The auto-rack car 10 includes a pair of co-acting clamshell doors 24 and 26 mounted on each end of the auto-rack car 10. The doors 24 and 26 are opened to facilitate the loading and unloading of vehicles into and out of the auto-rack car 10 and are closed during transport or storage of the vehicles. It should be appreciated that the present disclosure can be employed on such auto-rack cars or otherwise configured auto-rack cars.

[0029] The sidewalls 20 include a series of steel vertical posts 28 that are mounted on and extend upwardly from the frame 12. The roof 22 is mounted on and supported by these vertical posts. The vertical posts are evenly spaced along the entire length of both sidewalls 20 of the auto-rack car 10. A plurality of rectangular galvanized steel side wall panels 30 that extend horizontally and are vertically spaced apart are mounted between each pair of vertical posts 28. These side wall panels are supported at their corners by brackets (not shown) that are suitably secured to the vertical posts. The average side wall panel has a multiplicity of round sidewall panel holes 23. These side wall panel holes 23 provide the auto-rack car with natural light as well as proper ventilation. Proper ventilation prevents harm from the toxic vehicle fumes to the person or persons (i.e., loaders) loading or unloading the vehicles into or out of the auto-rack car.

[0030] Referring now to FIGS. 2A, 2B, 3A, 3B, 4, 5, 6, 7, 8, 9, 10, 11, and 12, the bridge plate locking assembly of one example embodiment of the present disclosure is generally illustrated and indicated by numeral 100. The bridge plate locking assembly 100 of the present disclosure is particularly configured for auto-rack cars (that have one or more levels or decks) such as auto-rack car 10. The auto-rack railroad car bridge plate locking assembly of the present disclosure is sometimes referred to herein for brevity as the locking assembly; such abbreviation is not meant to limit the present disclosure. FIGS. 2A and 2B generally show the bridge plate locking assembly 100 attached to a bottom of a bridge plate.

[0031] The auto-rack railroad bridge plate locking assembly 100 of various embodiments of the present disclosure generally includes a support bracket 110 configured to be attached to an auto-rack railroad car bridge plate, a support block 130 connected to the bottom of the support bracket 110, a guide tube 140 connected to the bottom of the support bracket 110 and connected to the bottom of the support block 130, a slidable locking pin 160 partially positioned in a first end of the guide tube 140 and partially extending from the first end of the guide tube 140, a removable handle 170 removably attached to the locking pin 160 by a removable fastener such as roll pin 168, a fixed pivot pin 180 partially positioned in and securely connected to a second end of the guide tube 140 and partially extending from the second end of the guide tube 140, and a spring 190 positioned in the guide tube 140 between and abutting the fixed pivot pin 180 and the locking pin 160.

[0032] In this illustrated embodiment, the support bracket 110, the support block 130, the guide tube 140, the slidable locking pin 160, the removable handle 170, the locking pin 160, the removable roll pin 168, the fixed pivot pin 180, and the spring 190 are all made from suitable metals such as steel. It should be appreciated that one or more of these components of the locking assembly can be made from other suitable materials. It should also be appreciated that one or more of these components can be coated with a protective coating such as paint. It should also be appreciated that one or more of these components can be plated.

[0033] More specifically, in this illustrated embodiment, as best seen in FIGS. 3A, 3B, 4, 5, 6, and 7, the support bracket 110 includes an elongated body 111 including five integrally formed or connected sections, and particularly a first section 111a, a second section 111b, a third section 111c, a fourth section 111d, and a fifth section 111e. The first section 111a and the spaced apart fifth section 111e lie in the same plane. The third section 111c lies in a higher plane. The second section 111b is curved and connects the first section 111a to the third section 111c. Likewise, fourth section 111d is curved and connects the fifth section 111e to the third section 111c. The shapes of these sections generally correspond with the contour of the plate of the bridge plate to facilitate connection of the locking assembly 100 to the plate of the bridge plate. The openings 112a in the first section 111a, openings 112b, 112c, 112d, 112e, and 112f of the third section 111c, and the openings 112g and 112h in the fifth section 111e are employed for attaching the locking assembly 100 to the bridge plate by suitable fasteners (not shown) such as bolts and nuts (not shown).

[0034] The second section 111b defines a pin removal opening 115 that enables the roll pin 168 to be removed from the locking pin 160 and the handle 170 as further described below. In other words, the support bracket 110 defines a roll pin removal opening 115 that enables the removal of the roll pin 168 (that securely holds or connects the handle 170 to the locking pin 160) when the locking pin 160 needs to be replaced as further described below.

[0035] In this illustrated embodiment, as best seen in FIGS. 3A, 3B, 4, and 5, the support block 130 is positioned between the third section 111c of the support bracket 110 and the guide tube 140. In this illustrated embodiment, the support block 130 is connected (by welding) to the top of the guide tube 140 and is also connected (by welding) to the bottom of the support bracket 110; however, it should be appreciated that the support block 130 may alternatively only be connected (such as by welding) to only one of these components in accordance with the present disclosure. The support block 130 prevents or reduces the likelihood that the guide tube 140 will bend relative to the support bracket 110, and thus assists in overcoming one of the problems with the previously known bridge plate locking assemblies. In this illustrated embodiment, the support block is a solid cube; however, it should be appreciated that the support block may be alternatively configured in accordance with the present disclosure. It should be appreciated that the support block could be made of other suitable materials (such as rubber) in accordance with the present disclosure.

[0036] In this illustrated embodiment, as best seen in FIGS. 3A, 3B, 4, 5, 8, and 9, the guide tube 140 includes an elongated hollow cylindrical body 141 that defines: (a) a central cylindrical lumen 142; (b) cylindrical openings 142a and 142b at opposite ends of the body 141; (c) a first or top roll pin cylindrical opening 143; (d) a second or bottom roll pin cylindrical opening 144; and (e) an oval elongated handle opening 146 extending part of the length of the side of the body 141. The central cylindrical lumen 142 and the cylindrical opening 142a are configured and sized such that the locking pin 160 is freely movable within the guide tube 140. The central cylindrical lumen 142 is also configured and sized such that the spring 190 is freely movable within the guide tube 140. The central cylindrical lumen 142 and the cylindrical opening 142b are configured and sized such that the fixed pivot pin 180 can be securely attached to the end of the body 141 that defines the opening 142b. The first or top roll pin cylindrical opening 143 and the second or bottom roll pin cylindrical opening 144 are aligned, configured, and sized such that the roll pin 168 can be inserted through either the top opening 143 or through the bottom opening 144 for attachment of the handle 170 to the locking pin 160, and such that the roll pin 168 can be pushed out of the top opening 143 or the bottom opening 144 for detachment of the handle 170 from the locking pin 160 as further described below. The handle opening 146 is configured and sized such that part of the handle 170 extends through the opening 146 and the guide tube 140 and is moveable in the opening 146. In this illustrated embodiment, the top of the guide tube 140 is connected (by welding) to the bottom of the support bracket 110, and particularly to the bottom surfaces of sections 111a and 111e of the support bracket 110, in two spaced apart locations. In this illustrated embodiment, the top of the guide tube 140 is connected (by welding) to the bottom of the support block 130. In this illustrated embodiment, the guide tube is cylindrical; however, it should be appreciated that that the guide tube may be alternatively configured in accordance with the present disclosure.

[0037] In this illustrated embodiment, as best seen in FIGS. 3A, 3B, 4, 5, and 10, the slidable locking pin 160 includes an elongated solid cylindrical body 161 with a chamfered first end 162a and a flat spring engagement opposite end 162b. The slidable locking pin 160 is configured to be partially positioned in the first end of the guide tube 140 and partially extend from the first end of the guide tube 140. The slidable locking pin 160 defines: (a) aligned cylindrical roll pin openings 163a and 163b extending through the top and bottom portions of the cylindrical body 161; and (b) a cylindrical handle receiving opening 164 transversely extending through the entire body 161 from one side of the body 161 to the opposite side of the body 161. The cylindrical roll pin openings 163a and 163b are configured and sized such that the roll pin 168 can be press fit into the openings 163a and 163b to securely but removably attach the handle 170 to the locking pin 160 as further described below. The cylindrical handle receiving opening 164 is configured and sized such that attachment end 172 of the handle 170 can be inserted into the locking pin 160. The elongated solid cylindrical body 161 has an end section that is configured to be removably inserted in a locking pin receiver (not shown) on an auto-rack car as is known in the industry to removably attach a bridge plate (not shown) to an auto-rack car. In this illustrated embodiment, the slidable locking pin is cylindrical and solid; however, it should be appreciated that that the slideable locking pin may be alternatively configured in accordance with the present disclosure.

[0038] In this illustrated embodiment, as best seen in FIGS. 3A, 4, 5, and 12, the handle 170 includes an elongated solid body having a cylindrical attachment section 172 and a cylindrical gripping section 174 integrally formed with the attachment section 172. The attachment section 172 of the handle 170 defines a cylindrical roll pin opening 173 extending through the entire body 171 from the top of the body 171 to the bottom of the body 171. The cylindrical roll pin opening 173 is configured and sized such that the roll pin 168 can be press fit into the opening 173 to securely, but removably, attach the handle 170 to the locking pin 160 as further described below. In this illustrated embodiment, the gripping section 174 of the handle 170 includes a rounded end 175. In this illustrated embodiment, the handle is a solid member; however, it should be appreciated that the handle may be alternatively configured and shaped in accordance with the present disclosure.

[0039] In this illustrated embodiment, as best seen in FIGS. 3A, 3B, 4, 5, and 11, the fixed pivot pin 180 includes an elongated solid body 181 having three integrally formed cylindrical sections including a first cylindrical section 182, an intermediate cylindrical section 183, and a third cylindrical section 184. The fixed pivot pin 180 is configured to be partially positioned in the second end of the guide tube 140 and to partially extend from the second end of the guide tube 140. More specifically, the first cylindrical section 182 is configured and specifically sized to be inserted in and fit in the second end of the guide tube 140 through opening 142b. The first section 182 defines a flat spring engagement end 182a. The third cylindrical section 184 includes a chamfered end 184a and is configured and specifically sized to extend from the end of the guide tube 140 and to be removably inserted in a pivot pin receiver (not shown) on an auto-rack car as is known in the industry to attach a bridge plate (not shown) to an auto-rack car. The intermediate cylindrical section 183 of the fixed pivot pin 180 has a greater circumference than the first cylindrical section 182 and the third cylindrical section 184, and is configured and specifically sized to be welded to the end of the guide tube 140 that forms the opening 142b. This provides a secure or fixed connection between the guide tube 140 and the fixed pivot pin 180. In this illustrated embodiment, the intermediate cylindrical section 183 of the fixed pivot pin 180 has a central cylindrical surface, a tapered outer surface, and a transverse flat inner surface. In this illustrated embodiment, the pivot pin is machined to specific tolerances to securely fit in the guide tube 140 and the pivot pin receiver (not shown) on an auto-rack car. In this illustrated embodiment, the pivot pin is generally solid and includes cylindrical sections; however, it should be appreciated that the pivot pin may be alternatively configured in accordance with the present disclosure. In this illustrated embodiment, the pivot pin is suitably welded to the guide tube 140, but could be otherwise suitably securely attached such that is does not move relative to the guide tube.

[0040] In this illustrated embodiment, as best seen in FIGS. 4 and 5, the spring 190 is a coil spring configured and sized to be positioned in the guide tube 40 between the fixed pivot pin 180 and the locking pin 160. The spring 190 has a first end configured to engage or butt up against the flat spring engagement opposite end 162b of the slidable locking pin 160 and an opposite second end configured to engage or butt up against the flat spring engagement end 182a of the first section 182 of the fixed pivot pin 180. The spring 190 is configured and sized to apply a biasing force against the locking pin 160 to push the locking pin 160 outwardly from the first end of the guide tube 140. In this illustrated embodiment, the spring is cylindrical; however, it should be appreciated that the spring may be alternatively configured in accordance with the present disclosure.

[0041] In this illustrated embodiment, to assemble the bridge plate locking assembly 100: (a) the support block 130 is welded to the bottom of the third section 111c of the support bracket 110; (b) the guide tube 140 is welded to the bottom of the first section 111a of the support bracket 110, to the bottom of the fifth section 111c of the support bracket 110, and to the bottom of the support block 130; (c) the first section 182 of the fixed pivot pin 180 is inserted into the second end of the guide tube 140 and the intermediate section 183 is welded to that second end of the guide tube 140; (d) the spring 190 is inserted into the guide tube 140 through the first end of the guide tube 140; (e) the locking pin 160 is inserted into the first end of the guide tube 140 such that the pin removal opening 115, the first roll pin cylindrical opening 143, the second roll pin cylindrical opening 144, and the roll pin openings 163a and 163b are aligned; (f) the attachment section 172 of the handle 170 is inserted through the handle opening 146 in the guide tube 140 and into the handle receiving opening 164 of locking pin 160 such that roll pin opening 173 defined by the handle 170 is also aligned with the pin removal opening 115, the first roll pin cylindrical opening 143, the second roll pin cylindrical opening 144, and the roll pin openings 163a and 163b; and (g) the roll pin 168 is inserted through the opening 143 and press fit into the roll pin openings 163a and 163b and the roll pin opening 173 defined by the handle 170 to securely attach the handle 170 to the locking pin 160. It should be appreciated that the order of assembly may vary in accordance with the present disclosure.

[0042] If the locking pin 160 is bent or damaged in use or otherwise, the locking pin 160 can be replaced. In this illustrated embodiment, to replace the locking pin 160, the roll pin 168 is pushed out from being in the roll pin openings 163a and 163b and the roll pin opening 173 through the first roll pin cylindrical opening 143 in the guide tube 140 and through the pin removal opening 115 in the support bracket 110. Alternatively, in this illustrated embodiment, to replace the locking pin 160, the roll pin 168 is pushed out from being in the roll pin openings 163a and 163b and the roll pin opening 173 through the second roll pin cylindrical opening 144 in the guide tube 140. In either case, a suitable tool such as punch (not shown) can be inserted in the respective openings to engage and push out the roll pin 168. The pin removal opening 115 in the support bracket 110 facilitates the insertion of such a tool and the removal of the roll pin 168 in either of these above described removal directions. After the roll pin 168 is removed, the handle 170 can then be removed from the locking pin 160, and the locking pin 160 can be removed from the guide tube 140. A new locking pin 160 can then be inserted into the guide tube 140 such that the pin removal opening 115, the first roll pin cylindrical opening 143, the second roll pin cylindrical opening 144, and the roll pin openings 163a and 163b are aligned. The attachment section 172 of the handle 170 can be inserted into the handle receiving opening 164 of locking pin 160 such that the roll pin opening 173 defined by the handle 170 is aligned with pin removal opening 115, the first roll pin cylindrical opening 143, the second roll pin cylindrical opening 144, and the roll pin openings 163a and 163b. The roll pin 168 can be inserted through the opening 143 and press fit into roll pin opening 163 and roll pin opening 173 defined by the handle 170 to secure the handle 170 to the new locking pin 160. The handle and the roll pin can also be replaced in this manner.

[0043] It should thus be appreciated that the removable handle and the locking pin enable the locking pin to be replaced if the locking pin is bent during use, installation, or removal. The combination of these components enables the locking assembly to be readily and efficiently repaired without the need to replace the entire locking assembly or entire bridge plate.

[0044] It should also be appreciated from the above that that the auto-rack railroad car bridge plate locking assembly of the present disclosure eliminates the need for a collar (described above), and thus in various embodiments does not include such a collar.

[0045] It should also be appreciated from the above that that the auto-rack railroad car bridge plate locking assembly of the present disclosure provides a pivot pin that is securely attached to the guide tube, eliminates the need for a loosely attached pivot pin (described above), and thus in various embodiments does not include such a loosely attached pivot pin.

[0046] It should be appreciated from the above that in certain embodiments, the present disclosure provides an auto-rack railroad car bridge plate locking assembly including: (a) a support bracket; (b) a guide tube connected to the support bracket; (c) a support block positioned between the support bracket and the guide tube, said support block connected to the support bracket and to the guide tube; (d) a slidable locking pin partially positioned in the guide tube; (e) a handle removably attached to the locking pin by a removable roll pin; (f) a pivot pin partially positioned in and connected to the guide tube; and (g) a spring positioned in the guide tube between the pivot pin and the locking pin and configured to apply a biasing force against the locking pin to push the locking pin outwardly from the guide tube.

[0047] It should further be appreciated from the above that in certain such embodiments, the present disclosure provides such an auto-rack railroad car bridge plate locking assembly wherein: (i) the support bracket includes a first section, a second section, a third section, a fourth section, and a fifth section, the second section defining a pin removal opening that enables the roll pin to be removed from the locking pin and the handle; (ii) the support block is positioned between the third section of the support bracket and the guide tube; (iii) the guide tube defines a central cylindrical lumen, cylindrical openings at opposite ends, a first cylindrical roll pin opening, a second cylindrical roll pin opening, and an elongated handle opening; (iv) the slidable locking pin defines aligned cylindrical roll pin openings and a cylindrical handle receiving opening; (v) the handle includes an attachment section and a gripping section, the attachment section defining a cylindrical roll pin opening; and (vi) the pivot pin includes a cylindrical body having a first section, an intermediate section, and a second section.

[0048] Various embodiments of the present disclosure also provide an auto-rack railroad car bridge plate with the locking assembly described above.

[0049] It should thus be further appreciated from the above that in certain embodiments, the present disclosure provides an auto-rack railroad car bridge plate including: a plate configured to extend from one auto-rack railroad car to an adjacent auto-rack railroad car; and a locking assembly connected to the plate and configured to pivotally attach the plate to one of the auto-rack rail road cars, wherein the locking assembly includes: (a) a support bracket; (b) a guide tube connected to the support bracket; (c) a support block positioned between the support bracket and the guide tube, said support block connected to the support bracket and to the guide tube; (d) a slidable locking pin partially positioned in the guide tube; (e) a handle removably attached to the locking pin by a removable roll pin; (f) a pivot pin partially positioned in and connected to the guide tube; and (g) a spring positioned in the guide tube between the pivot pin and the locking pin and configured to apply a biasing force against the locking pin to push the locking pin outwardly from the guide tube.

[0050] It should further be appreciated from the above that in certain such embodiments the present disclosure provides such an auto-rack railroad car bridge plate wherein: (i) the support bracket includes a first section a second section, a third section, a fourth section, and a fifth section, the second section defining a pin removal opening that enables the roll pin to be removed from the locking pin and the handle; (ii) the support block is positioned between the third section of the support bracket and the guide tube; (iii) the guide tube defines a central cylindrical lumen, cylindrical openings at opposite ends, a first cylindrical roll pin opening, a second cylindrical roll pin opening, and an elongated handle opening; (iv) the slidable locking pin defines aligned cylindrical roll pin openings and a cylindrical handle receiving opening; (v) the handle includes an attachment section and a gripping section, the attachment section defining a cylindrical roll pin opening; and (vi) the pivot pin includes a cylindrical body having a first section, an intermediate section, and a second section.

[0051] It should be understood that modifications and variations may be effected without departing from the scope of the novel concepts of the present invention, and it should be understood that this application is to be limited only by the scope of the claims.