Lubricant-free vehicle door lock

Abstract

A vehicle lock which eliminates the need for lubrication and which includes a bracket, a first base attached to the bracket, a second base attached to the bracket, aligned first and second apertures in the first and second bases for slidably receiving a. locking pin, a replaceable first locking pin wear protector lockably insertable in and selectively removable from the first base to prevent contact between the locking pin and the inner edge of the first base which defines the first aperture, and a replaceable second locking pin wear protector lockably insertable in and selectively removable from the second base to prevent contact between the locking pin and the inner edge of the second base which defines the second aperture.

Claims

1. A locking pin wear protector comprising: a cylindrical body having a first surface, a second surface, a cylindrical outer side surface extending from the first surface to the second surface and circumferentially about the cylindrical body, and a cylindrical locking pin engagement inner edge that defines a locking pin receipt opening extending through the cylindrical body from the first surface to the second surface, the cylindrical body including: a first locking arm comprising a first portion of the cylindrical outer side surface that extends in a circumferential direction so as to form a circumferentially extending cantilever supported at only one of two circumferentially opposite ends of the first locking arm and is unsupported at a middle portion between the two circumferentially opposite ends, the middle portion having an inner surface facing the locking pin receipt opening that extends from the first surface to the second surface, the middle portion is unsupported such that a space between the middle portion of the first locking arm and the cylindrical locking pin engagement inner edge extends from the first surface to the second surface, the first locking arm including a first transversely outwardly extending base engagement pin, and the first locking arm configured to bend inwardly toward the locking pin receipt opening, and a second locking arm comprising a second portion of the cylindrical outer side surface that extends in a circumferential direction so as to form a circumferentially extending cantilever supported at only one of two circumferentially opposite ends of the second locking arm and is unsupported at a middle portion between the two circumferentially opposite ends, the middle portion having an inner surface facing the locking pin receipt opening that extends from the first surface to the second surface, the middle portion is unsupported such that a space between the middle portion of the second locking arm and the cylindrical locking pin engagement inner edge extends from the first surface to the second surface, the second locking arm including a second transversely outwardly extending base engagement pin, and the second locking arm configured to bend inwardly toward the locking pin receipt opening, said cylindrical body configured to be removably receivable in a base of a vehicle lock to prevent contact between a locking pin and an inner edge of the base of the vehicle lock when the locking pin extends through the locking pin receipt opening and the base.

2. The locking pin wear protector of claim 1, wherein the other of the two circumferentially opposite ends of the first locking arm is a free end.

3. The locking pin wear protector of claim 2, wherein the other of the two circumferentially opposite ends of the second locking arm is a free end.

4. The locking pin wear protector of claim 1, wherein the two circumferentially opposite ends of the first locking arm are integrally formed as part of the cylindrical body.

5. The locking pin wear protector of claim 4, wherein the two circumferentially opposite ends of the second locking arm are integrally formed as part of the cylindrical body.

6. The locking pin wear protector of claim 1, wherein the first portion of the first locking arm that forms the circumferentially extending cantilever is only supported at a first one of the two circumferentially opposite ends of the first locking arm and is unsupported at a second one of the two circumferentially opposite ends of the first locking arm, the second one of the two circumferentially opposite ends of the first locking arm being a free end of the first locking arm.

7. The locking pin wear protector of claim 6, wherein the second portion of the second locking arm that forms the circumferentially extending cantilever is only supported at a first one of the two circumferentially opposite ends of the second locking arm and is unsupported at a second one of the two circumferentially opposite ends of the second locking arm, the second one of the two circumferentially opposite ends of the second locking arm being a free end of the second locking arm.

8. The locking pin wear protector of claim 1, wherein the cylindrical body defines an alignment guide.

9. The locking pin wear protector of claim 1, wherein the cylindrical body defines an alignment groove.

10. The locking pin wear protector of claim 1, wherein the cylindrical body defines a plurality of spaced apart alignment guides.

11. The locking pin wear protector of claim 1, wherein the cylindrical body defines a plurality of spaced apart alignment grooves.

12. The locking pin wear protector of claim 1, wherein the cylindrical body is made from a dry self-lubricating material having non-hygroscopic characteristics, a low coefficient of friction, a high compressive strength, and a high resistance to wear.

13. The locking pin wear protector of claim 1, wherein the cylindrical body is made from a polymer.

14. The locking pin wear protector of claim 1, wherein the cylindrical body is made from a urethane.

15. A locking pin wear protector comprising: a body having a first surface, a second surface, an outer side surface extending from the first surface to the second surface and peripherally about the body, and a locking pin engagement inner edge that defines a locking pin receipt opening extending through the body from the first surface to the second surface, the body including: a first locking arm comprising a first portion of the outer side surface extending peripherally about the body so as to form a peripherally extending cantilever supported only at one of two peripherally opposite ends of the first locking arm and unsupported at a middle portion between the two peripherally opposite ends, the middle portion having an inner surface facing the locking pin receipt opening that extends from the first surface to the second surface, the middle portion is unsupported such that a space between the middle portion of the first locking arm and the locking pin engagement inner edge extends from the first surface to the second surface, the first locking arm including a first transversely outwardly extending base engagement pin, and the first locking arm configured to bend inwardly toward the locking pin receipt opening, and said body configured to be removably receivable in a base of a vehicle lock to prevent contact between a locking pin and an inner edge of the base of the vehicle lock when the locking pin extends through the locking pin receipt opening and the base.

16. The locking pin wear protector of claim 15, wherein one of the peripherally opposite ends of the first locking arm is a free end.

17. The locking pin wear protector of claim 15, wherein the two peripherally opposite ends of the first locking arm are integrally formed as part of the body.

18. The locking pin wear protector of claim 15, wherein the first portion of the first locking arm that forms the peripherally extending cantilever is only supported at a first one of the two peripherally opposite ends of the first locking arm and is unsupported at a second one of the two peripherally opposite ends of the first locking arm, the second one of the two peripherally opposite ends of the first locking arm being a free end of the first locking arm.

19. The locking pin wear protector of claim 15, wherein the body further includes a second locking arm comprising a second portion of the outer side surface extending peripherally about the body so as to form a peripherally extending cantilever supported at only one of two peripherally opposite ends of the second locking arm and unsupported at a middle portion between the two peripherally opposite ends, the middle portion having an inner surface facing the locking pin receipt opening that extends from the first surface to the second surface, the middle portion is unsupported such that a space between the middle portion of the second locking arm and the locking pin engagement inner edge extends from the first surface to the second surface, the second locking arm including a second transversely outwardly extending base engagement pin, and the second locking arm configured to bend inwardly toward the locking pin receipt opening.

20. The locking pin wear protector of claim 19, wherein the other of the two peripherally opposite ends of the second locking arm is a free end.

21. The locking pin wear protector of claim 19, wherein the two peripherally opposite ends of the second locking arm are integrally formed as part of the body.

22. The locking pin wear protector of claim 19, wherein the second portion of the second locking arm that forms the peripherally extending cantilever is only supported at a first one of the two peripherally opposite ends of the second locking arm and is unsupported at a second one of the two peripherally opposite ends of the second locking arm, the second one of the two peripherally opposite ends of the second locking arm being a free end of the second locking arm.

23. The locking pin wear protector of claim 15, wherein the body defines an alignment guide.

24. The locking pin wear protector of claim 15, wherein the body defines an alignment groove.

25. The locking pin wear protector of claim 15, wherein the body defines a plurality of spaced apart alignment guides.

26. The locking pin wear protector of claim 15, wherein the body defines a plurality of spaced apart alignment grooves.

27. The locking pin wear protector of claim 15, wherein the body is made from a dry self-lubricating material having non-hygroscopic characteristics, a low coefficient of friction, a high compressive strength, and a high resistance to wear.

28. The locking pin wear protector of claim 15, wherein the body is made from a polymer.

29. The locking pin wear protector of claim 15, wherein the body is made from a urethane.

Description

BRIEF DESCRIPTION OF THE FIGURES

(1) FIG. 1 is a perspective view of an auto-rack railroad car configured to transport a plurality of vehicles.

(2) FIG. 2 is an end view of an auto-rack railroad car illustrating the doors at one end of the railroad car;

(3) FIG. 3 is a fragmentary perspective view of the end of an auto-rack car, the left hand door in open position and a conventional lower door lock for the left hand door.

(4) FIG. 4 is an enlarged interior plan view of a conventional lower door lock for a right hand door in an auto-rack railroad car.

(5) FIG. 5 is a fragmentary perspective view of a conventional upper door lock for a left hand door.

(6) FIG. 6 is an interior plan view of a conventional locking assembly for a left hand door including interconnected upper and lower door locks.

(7) FIG. 7 is an enlarged perspective view of a conventional lower door lock.

(8) FIG. 8 is an enlarged perspective view of a conventional upper door lock.

(9) FIG. 9 is an enlarged perspective view of a known greaseless door lock.

(10) FIG. 10 is an enlarged perspective view of one embodiment of the lubricant free door lock of the present disclosure.

(11) FIG. 11 is an enlarged exploded perspective view of the lubricant free door lock of FIG. 10.

(12) FIG. 12 is cross-sectional view of the lubricant free door lock of FIG. 10, taken substantially through line 12-12 of FIG. 10.

(13) FIG. 13 is an enlarged perspective view of the base and locking pin wear protector of the lubricant free door lock of FIG. 10, shown prior to attachment to the C-shaped bracket.

(14) FIG. 14 is an enlarged cross-sectional perspective view of the base and locking pin wear protector of the lubricant free door lock of FIG. 10, taken substantially through line 14-14 of FIG. 13.

(15) FIG. 15 is an enlarged exploded perspective view of the base and locking pin wear protector of the lubricant free door lock of FIG. 10.

(16) FIG. 16 is an enlarged perspective view of another embodiment of the lubricant free door lock of the present disclosure.

(17) FIG. 17 is an enlarged exploded perspective view of the lubricant free door lock of FIG. 16.

(18) FIG. 18 is cross-sectional view of the lubricant free door lock of FIG. 16, taken substantially through line 18-18 of FIG. 16.

(19) FIG. 19 is an enlarged perspective view of an alternative locking pin wear protector of the lubricant free door lock of the present disclosure.

DETAILED DESCRIPTION

(20) The lubricant free door lock of the present disclosure eliminates the need to lubricate door locks on doors in enclosed railroad cars. Various example embodiments of the railroad car lubricant free door lock of the present disclosure are described in detail below in relation to auto-rack cars, although the lubricant free door locks of the present disclosure are also suited for box cars and other freight railroad cars.

(21) Referring now to the drawings, and particularly to FIGS. 1 to 9, a typical auto-rack railroad car 10 includes a frame 12 supported by trucks 14, each of which have several wheels 16 which are configured to roll along railroad tracks 18. The frame 12 supports two side walls 20 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 typically closed during transport or storage of the vehicles. The right hand door 24 and the left hand door 26 (when viewed from the outside of the auto-rack car) are shown in closed position in FIGS. 1, 2, 4, and 5, and the left hand door 26 is shown in open position in FIG. 3 and in closed position in FIG. 6.

(22) As best illustrated in FIG. 3, the doors 24 and 26 are supported and guided at their bottom ends by lower door tracks 28 mounted on the frame 12 and are guided at their upper ends by upper door tracks (not shown). The steel door track 28 includes a first substantially horizontally disposed door wheel bearing member 30 and a substantially vertically disposed door guide member 32 integrally formed with the outer edge of the bearing member 30. The door track 28 further includes a somewhat offset and higher second horizontally disposed member or ledge 34. The member or ledge 34 includes two spaced apart sockets 38 and 40 for co-acting with a door lock 36 on door 26. Socket 38 co-acts with a door lock 36 when door 26 is in closed position, and socket 40 co-acts with a door lock 36 when door 26 is in the open position. The member or ledge 34 also includes a stop 39 associated with each socket 38 and 40 which limits the movement of the door. Stop 39 is illustrated in FIG. 3.

(23) Various conventional door locks found in the prior art which are currently being used on railroad cars are illustrated in FIGS. 3 through 9. As specifically illustrated in FIG. 6, each door has a locking assembly 42 which includes a lower door lock 36 and an upper door lock 36a interconnected by a cable 70 which causes the door locks 36 and 36a to operate in unison to lock and unlock the doors. As illustrated in FIGS. 3, 4, 6, and 7, the lower door lock 36 includes a vertically disposed locking pin 50 mounted in a substantially C-shaped bracket 52 which is mounted on the door. The locking pin 50 is aligned with and received in socket 38 if the door is in the closed position and aligned with and received in socket 40 if the door is in the open position. The door locks 36 include grease caps or grease fittings 63 and 64 on the upper and lower end walls 58 and 60 of the bracket 52 as illustrated in more detail in FIGS. 7 and 8.

(24) Conventional door lock 36 also includes a spring 56 mounted on the locking pin 50 and disposed between the upper and lower end walls 58 and 60 of the bracket 52. The spring 56 is bottomed at one end against the grease cap or fitting 63 on the upper wall 58 and at the other end against a washer 54 which is mounted on the locking pin 50. The spring 56 normally urges the locking pin 50 downwardly.

(25) An actuating lever 62 is pivotally mounted on the door and pivotally attached to the top end of the locking pin 50. The actuating lever 62 is rotated or actuated using a key (not shown) which is inserted through keyholes 66 and 68 in the doors 24 and 26 as illustrated in FIG. 2. The rotation of the actuating lever 62 causes an upward force on the locking pin 50 and a downward force on the outer free end of the actuating lever 62 which is connected to the cable 70. When the actuating lever 62 is rotated, the cable 70 connected to the actuating lever 62a on the upper door lock 36a is likewise actuated to cause the locking pin 50a to disengage socket 38a on the upper deck or floor of the car to unlock the door and allow it to be moved either from closed position to open position or from open position to closed position as illustrated in FIG. 5.

(26) The upper door lock 36a, as illustrated in FIGS. 5 and 8, has an alternatively shaped bracket, but generally has identical working parts including a locking pin 50a, a spring 56a, a washer 54a, and grease caps or fittings 63a and 64a. A stop 68 is associated with socket 38a to assist in stopping the door 26 when it reaches the closed position. The lower end of the locking pin 50a is beveled to facilitate entry of the locking pin 50a into the socket 38a. Release of a force on the actuating lever 62a will enable the spring 56a to force the locking pin 50a downwardly so that it will sit in a socket 38a when the locking pin 50a is aligned with the socket 38a and thereby maintain the door in the open or closed position.

(27) Referring now to FIG. 9, one known greaseless door lock 100 includes a substantially C-shape bracket 102 having a side wall 104 and spaced-apart upper and lower end walls 106 and 108 integrally connected to and extending transversely from the side wall 104. The end walls 106 and 108 include suitably sized aligned cylindrical upper and lower apertures (not shown), defined by inner edges (not shown) of end walls 106 and 108, respectively, for receiving a cylindrical locking pin 114. A mounting plate 116 is attached to the bracket 102 and specifically welded to the side wall 104 and end walls 106 and 108 of the bracket 102. The locking pin 114 extends through the upper and lower apertures (not shown) in the upper end wall 106 and lower end wall 108 and is secured in the bracket 102 by a spring 118 journaled about the locking pin 114, a disc-shaped washer 120 journaled about the locking pin 114 below the spring 118 and a stop 122 extending transversely through a transverse hole in the locking pin 114. The stop 122 maintains or supports the washer 120, and the spring 118 is buttoned or bottomed against the washer 120 to create the downward force on the locking pin 114. Upper collars 124 and 126 are positioned in the upper aperture between the outer circumference of locking pin 114 and the inner edge of the upper end wall 106 which defines the upper aperture. Lower collars 128 and 130 are positioned in the lower aperture between the outer circumference of locking pin 114 and the inner edge of the lower end wall 108 which defines the lower aperture. The locking pin 114 is suitably sized to maintain the semi-cylindrical collars 124, 126, 128, and 130 in place and prevent the displacement of the collars.

(28) Referring now to FIGS. 10, 11, 12, 13, 14, and 15, one embodiment of the lubricant free railroad car door lock of the present disclosure is generally illustrated and indicated by numeral 1100. This illustrated example lubricant free railroad car door lock 1100 includes a substantially C-shape bracket 1102 having a side wall 1104, a first or upper end wall 1106 integrally connected to and extending transversely from the side wall 1104, and a second or lower end wall 1108 integrally connected to and extending transversely from the side wall 1104. The upper and lower end walls 1106 and 1108 are suitably spaced apart from each other. The end walls 1106 and 1108 respectively define suitably sized aligned cylindrical first and second openings or apertures 1110 and 1112. More specifically, end walls 1106 and 1108 respectively include cylindrical inner edges 1111 and 1113 that define the aligned first and second cylindrical apertures 1110 and 1112. In the assembled position, the locking pin 1114 extends through apertures 1110 and 1112 in the upper end wall 1106 and lower end wall 1108. The door lock 1100 further includes a spring 1118 journaled about the locking pin 1114, a first disc-shaped washer 1120 journaled about the locking pin 1114 below the spring 1118, and a stop 1124 extending transversely through (and out of both sides of) a transverse hole 1123 in the locking pin 1114. The stop 1124 maintains or supports the washer 1120, and the spring 1118 is buttoned or bottomed against the washer 1120 to create the downward force on the locking pin 1114.

(29) Although not shown, this embodiment of the lubricant free railroad car door lock may also include one or more mounting plates for suitable attachment to one of the doors of the railroad car. In certain such embodiments, each mounting plate is attached to the bracket and specifically welded to the side wall and/or one or more end walls of the bracket.

(30) As shown in FIGS. 10, 11, 12, 13, 14, and 15, this example embodiment of the lubricant free door lock 1100 of the present disclosure further includes: (a) a first or upper steel base 1200 attached (such as by welding) to the top of the upper end wall 1106; and (b) a generally cylindrical replaceable first locking pin wear protector 1300 securely insertable in and selectively removable from the first base 1200 to: (i) prevent steel-on-steel contact between the locking pin 1114 and the inner edge 1111 of the upper end wall 1106; and (ii) prevent steel-on-steel contact between the locking pin 1114 and the inner edge or shoulder 1250 of the upper base 1200.

(31) This example embodiment of the lubricant free door lock 1100 of the present disclosure further includes: (a) a second or lower base 1500 attached (such as by welding) to the bottom of the lower end wall 1108; and (b) a generally cylindrical replaceable second locking pin wear protector 1600 securely insertable in and selectively removable from the second base 1500 to: (i) prevent the steel-on-steel contact between the locking pin 1114 and the inner edge 1113 of the lower end wall 1108; and (ii) prevent steel-on-steel contact between the locking pin 1114 and the inner edge or shoulder of the lower base 1500.

(32) In various embodiments, each locking pin wear protector is formed from a suitable a dry self-lubricating material having non-hygroscopic characteristics, a low coefficient of friction, a high compressive strength, and a high resistance to wear. For example, in certain embodiments, each locking pin wear protector is molded from a urethane. It should be appreciated that one or more of the locking pin wear protectors can be made from other suitable materials such as UHMW polyethylene, a polyoxymethylene (such as a polyoxymethylene sold under the name DELRIN), or another polymer such as a moly disulfide filled nylon. As further discussed below, the locking pin wear protectors eliminate the need for a lubricant between the steel locking pin and the end walls of the bracket and the inner edges or shoulders of the bases.

(33) In this illustrated example embodiment, the first or upper base 1200 is identical to the second or lower base 1500, and the locking pin wear protector 1300 is identical to the locking pin wear protector 1600. However, it should be appreciated that these components do not need to be identical in accordance with the present disclosure. It should also be appreciated that the bases 1200 and 1500 are secured or attached to the bracket 1102 in this illustrated embodiment such that they face each other as further described below, and that in alternative embodiments, the bases can be secured in other suitable manners such as facing away from each other, or both facing in one direction (such as an upward direction or a downward direction).

(34) Since, in this illustrated example embodiment, the first or upper base 1200 is identical to the second or lower base 1500, and the locking pin wear protector 1300 is identical to the locking pin wear protector 1600, these components are discussed in more detail with reference to the first or upper base 1200 and the first locking pin wear protector 1300.

(35) The first or upper base 1200 includes a body 1202 having a first face or surface 1204, a second face or surface 1206, a first side surface or end 1208, a second side surface or end 1210, a third side surface or end 1212, and a fourth side surface or end 1214. The body 1202 includes a cylindrical locking pin wear protector engagement shelf 1220 and a cylindrical inner edge or locking pin wear protector engagement shoulder 1230 which define a cylindrical locking pin wear protector receipt opening or aperture 1240. The body 1202 further includes a second inner edge or shoulder 1250 which defines a locking pin receipt opening or aperture 1260 through which the locking pin 1114 extends. The body 1202 further defines a cylindrical first engagement pin receipt channel 1270 extending transversely in the body 1202 and a cylindrical second engagement pin receipt channel 1280 extending transversely in the body 1202.

(36) In this embodiment, the first or upper base 1200 is made from a suitable steel, although it could be made from other suitable materials. In this embodiment, the first or upper base 1200 is welded to the top surface 1107 of the end wall 1106, and specifically with surface 1204 of the first or upper base 1200 facing and contacting the top surface 1107 of the end wall 1106. It should be appreciated that the openings, apertures, and channels defined by the body 1200 can be machined or otherwise suitably formed in the body 1500. It should also be appreciate that the base can be made in other suitable configurations, and that the cylindrical portions can be alternatively shaped.

(37) The first locking pin wear protector 1300 includes a cylindrical body 1302 having a first surface 1304, a second surface 1306, a cylindrical outer side surface 1308, and a cylindrical locking pin engagement inner edge or shoulder 1310 which defines a locking pin receipt opening or aperture 1312. The inner edge or shoulder 1310 is configured to engage the locking pin 1114, as further discussed below. The body 1302 defines or includes a first locking arm 1320 having a first outwardly or transversely extending base engagement pin 1322, and a second locking arm 1330 having a second outwardly or transversely extending base engagement pin 1332. As best illustrated in FIG. 14, the first locking pin wear protector 1300 is configured to be positioned in the first or upper base 1200, and specifically in the cylindrical locking pin wear protector receipt opening or aperture 1240 such that: (1) the second surface 1306 engages or can engage the cylindrical locking pin wear protector engagement shelf 1220; (2) the first base engagement pin 1322 extends into the first engagement pin receipt channel 1270; and (3) the second base engagement pin 1332 extends into the second engagement pin receipt channel 1280. This configuration securely (but removably) holds the first pin wear protector 1300 in or attached to the first or upper base 1200. It should be appreciated that an object such as a screwdriver can be inserted through channel 1270 in the first or upper base 1200 to dis-engage the first base engagement pin 1322 from the first engagement pin receipt channel 1270, and thus enable the first locking pin wear protector 1300 to be removed from the first or upper base 1200.

(38) It should be appreciated that the body 1302, the second surface 1306, the outer side surface 1308, the first locking arm 1320, the first base engagement pin 1322, the second locking arm 1330, and the second base engagement pin 1332 are configured such that when the first locking pin wear protector 1300 is placed in the locking pin wear protector receipt opening 1240 in the first or upper base 1200, the second surface 1306 engages or can engage the locking pin wear protector support shelf 1220, the outer side surface 1308 engages or can engage the locking pin wear protector engagement inner edge or shoulder 1230, the first base engagement pin 1322 extends into the channel 1270, and the second pin 1332 extends into the second channel 1280. This removably secures the first locking pin wear protector 1300 in the first base 1200.

(39) More specifically, in this illustrated embodiment, the first and second locking arms 1320 and 1330 have free ends and have normal or resting positions as shown in FIGS. 13, 14, and 15. These locking arms are configured such that when the first locking pin wear protector 1300 is placed into the first base 1200, one or both of the first locking arm 1320 (including the first base engagement pin 1322) and the second locking arm 1330 (including the second base engagement pin) 1332 flex, bend, or move inwardly (against their respective normal positions or bias) as the locking pin wear protector 1300 is moved into the first pin wear protector receipt opening 1240. When the first locking pin wear protector 1300 is in the correct position in the locking pin wear protector opening 1240, the first base engagement pin 1320 extends into the first channel 1270 and the second base engagement pin 1322 extends into the second channel 1280, allowing the first locking arm 1320 and the second locking arm 1330 to return to their normal positions. This securely holds the locking pin wear protector 1300 in the base 1200. It should be appreciated that in other embodiments, one or more of the locking arms may be further outwardly biased (or have a normal position extending outwardly). It should also be appreciated that the locking pin wear protector can be made in other suitable configurations and that the cylindrical portions can be alternatively shaped.

(40) This illustrated embodiment of the locking pin wear protector 1300 of the present disclosure further includes or defines aligned guides (such as grooves 1390, 1392, 1394, and 1396) which indicate to the installer the proper alignment of the base engagement pins 1322 and 1332 and thus the proper alignment of the locking pin wear protector 1300 in the base 1200. These grooves also function as water drains.

(41) As mentioned above, to remove the first locking pin wear protector 1300 from the base 1200, an object such as a screwdriver (not shown) is inserted into and through the first channel 1270 and into engagement with the first base engagement pin 1322. The object causes the first locking arm 1320 including the first base engagement pin 1322 to flex, bend, or move inwardly (against its bias) and to disengage from the first channel 1270, thereby enabling removal of the first locking pin wear protector 1300 from the base 1200.

(42) It should be appreciated that in this illustrated embodiment, the locking pin receipt opening 1312 (of the first locking pin wear protector 1300) has a smaller diameter than the locking pin receipt opening 1260 (of the base 1200), and that the locking pin receipt opening 1260 (of the base 1200) has a smaller diameter than the aperture 1110 in the upper end wall 1106. This configuration causes the locking pin 1114 to engage the inner edge 1310 of the first locking pin wear protector 1300 instead of engaging the base 1300 or the end wall 1106.

(43) It should further be appreciated that the first locking pin wear protector 1300 has a smaller outer diameter the than aperture 1110 in the upper end wall 1106. This configuration enables the first locking pin wear protector 1300 to be inserted upwardly through the aperture 1110 in the end wall 1106 and into the upper base 1200 during assembly of door lock 1100 after the upper base 1200 is welded to the top of the end wall 1106. If the first locking pin wear protector 1300 breaks, wears out, or otherwise needs to be replaced, the first locking pin wear protector 1300 can be unlocked or detached from the upper base 1200 and removed (by moving downwardly through the aperture 1110 in the end wall 1106) and replaced with another first locking pin wear protector (which is moved upwardly through the aperture 1110 in the end wall 1106 and locked into the upper base 1200). This configuration provides for relatively easy replacement of the first locking pin wear protector 1300. It should be appreciated that to replace the locking pin wear protector 1300, the locking pin 1114 is first removed from its position extending through the bracket 1102, the locking pin wear protector 1300 and the base 1200.

(44) Like the first or upper base 1200, as best seen in FIGS. 11 and 12, the second or lower base 1500 includes a body 1502 having a first face or surface 1504, a second face or surface 1506, a first side surface or end 1508, a second side surface or end 1510, a third side surface or end 1512, and a fourth side surface or end 1514. The body 1502 includes a cylindrical locking pin wear protector engagement shelf 1520 and a cylindrical locking pin wear protector engagement inner edge or shoulder 1530 which define a locking pin wear protector receipt opening (not shown). The body 1502 further includes a second inner edge or shoulder 1550 which defines a locking pin receipt opening 1560 through which the locking pin 1114 extends. The body 1502 further defines a first engagement pin receipt channel 1570 extending transversely in the body 1502 and a second engagement pin receipt channel 1580 extending transversely in the body 1502. In this embodiment, the second or lower base 1500 is made from a suitable steel, although it could be made from other suitable materials and in other suitable configurations. In this embodiment, the second or lower base 1500 is welded to the bottom surface 1109 of the end wall 1108, and specifically with surface 1504 of the second or lower base 1500 facing and contacting the bottom surface 1109 of the end wall 1108. It should be appreciated that the openings, apertures, and channels defined by the body 1500 can be machined or otherwise suitably formed in the body 1500.

(45) Like the first locking pin wear protector 1300, the second locking pin wear protector 1600 includes a cylindrical body 1602 having a first surface 1604, a second surface 1606, a cylindrical outer side surface 1608, and a cylindrical or locking pin engagement inner edge or shoulder 1610 which defines a locking pin receipt opening 1612. The inner edge or shoulder 1610 is configured to engage the locking pin 1114. The body 1602 defines or includes a first locking arm 1620 having a first outwardly or transversely extending base engagement pin 1622, and a second locking arm 1630 having a second outwardly or transversely extending base engagement pin 1632. As best illustrated in FIG. 12, the second locking pin wear protector 1600 is configured to be positioned in and attached to the second or lower base 1500, and specifically in the cylindrical locking pin wear protector receipt opening (not shown) of the second base 1500 such that: (1) the second surface 1506 engages or can engage the cylindrical locking pin wear protector engagement shelf of the second base 1500; (2) the first base engagement pin 1622 extends into the first engagement pin receipt channel 1570; and (3) the second base engagement pin 1632 extends into the second engagement pin receipt channel 1580. This configuration securely (but removably) holds the second locking pin wear protector 1600 in the second or lower base 1500. As mentioned above, an object such as a screwdriver can be inserted through channel 1570 in the lower base 1500 to dis-engage the base engagement pin 1522 from the first engagement pin receipt channel 1570, and thus enable the second locking pin wear protector 1600 to be removed from the base 1500.

(46) It should also be appreciated that the body 1602, the second surface 1606, the outer side surface 1608, the first locking arm 1620, the first pin 1622, the second locking arm 1630, and the second pin 1632 are configured such that when the first locking pin wear protector 1600 is placed in the locking pin wear protector receipt opening in the second base 1500, the second surface 1606 engages or can engage the pin wear protector support shelf 1520, the outer side surface 1608 engages or can engage the inner pin wear protector engagement shoulder 1530, the first base engagement pin 1622 extends into the channel 1570, and the second base engagement pin 1632 extends into the channel 1580. This removably secures the second locking pin wear protector 1600 in the second base 1500.

(47) Like the first locking pin wear protector 1300 as described above, to place the second locking pin wear protector 1600 into the second base 1500, one or both of the first locking arm 1620 (including the first base engagement pin 1622) and the second locking arm 1630 (including the second base engagement pin 1632) are moved inwardly as the locking pin wear protector 1600 is moved into the first locking pin wear protector receipt opening. Like the first locking pin wear protector 1300 as described above, to remove the second locking pin wear protector 1600 from the second base 1500, an object (not shown) is inserted into and through the channel 1570 and into engagement with the first base engagement pin 1622. The object causes the locking arm 1620 (including the first base engagement pin 1622) to move inwardly and to disengage from the channel 1570, thereby enabling removal of the second locking pin wear protector 1400 from the second base 1500.

(48) It should be appreciated that in this illustrated embodiment, the locking pin receipt opening 1612 (of the second locking pin wear protector 1600) has a smaller diameter than the locking pin receipt opening 1560 (of the base 1500), and that the locking pin receipt opening 1560 (of the base 1500) has a smaller diameter than the aperture 1112 in the lower end wall 1108. This configuration causes the locking pin 1114 to engage the inner surface 1612 of the second locking pin wear protector 1600 instead of engaging the base 1500 or the end wall 1108.

(49) It should further be appreciated that the second locking pin wear protector 1600 has a smaller outer diameter than aperture 1112 in the lower end wall 1108. This configuration enables the second locking pin wear protector 1600 to be inserted downwardly through the aperture 1112 in the end wall 1108 and into the lower base 1500 during assembly of door lock 1100 after the lower base 1500 is welded to the bottom of the end wall 1108. If the second locking pin wear protector 1600 breaks, wears out, or otherwise needs to be replaced, the second locking pin wear protector 1600 can be unlocked or detached from the lower base 1500 and removed (by moving upwardly through the aperture 1112 in the end wall 1108) and replaced with another first locking pin wear protector (which is moved downwardly through the aperture 1112 in the end wall 1108 and locked into the lower base 1500). This configuration provides for relatively easy replacement of the second locking pin wear protector 1600. It should, of course, be appreciated that the locking pin 1114 would need to be removed from the door lock 1100 before the locking pin wear protector 1600 is removed and replaced. This illustrated embodiment of the locking pin wear protector 1600 of the present disclosure further includes or defines aligned guides (such as grooves or water drains)) which indicate to the installer the proper alignment of the engagement pins 1622 and 1632 and thus the proper alignment of the locking pin wear protector 1600 in the base 1500.

(50) Referring now to FIGS. 16, 17, and 18, another embodiment of the lubricant free door lock of the present disclosure is generally illustrated and indicated by numeral 2100. This example embodiment is different than the above example embodiment in the configuration of the bracket and in the attachment of the bases to the bracket. More specifically, this example lubricant free door lock 2100 includes a substantially C-shape bracket 2102 having a side wall 2104 and spaced-apart first and second end walls 2106 and 2108 integrally connected to and extending transversely from the side wall 2104. The first and second end walls 2106 and 2108 are suitably spaced apart from each other.

(51) Although not shown, this embodiment of the lubricant free door lock may also include one or more mounting plates for suitable attachment to a door of the railroad car. In certain such embodiments, each mounting plate is attached to the bracket and specifically welded to the side wall and/or one or more end walls and of the bracket.

(52) This embodiment of the lubricant free door lock 2100 of the present disclosure further includes: (a) a first or upper steel base 2200 attached (such as by welding) to the respective top portions of the end walls 2106 and 2108; and (b) a second or lower steel base 2500 attached (such as by welding) to the respective bottom portions of the end walls 2106 and 2108. The bases 2200 and 2500 include inner edges 2211 and 2513 which define suitably sized aligned cylindrical openings or apertures 2210 and 2510 for receiving a steel cylindrical locking pin 2114. The locking pin 2114 extends through aperture or opening 2211 in the first base 2200 and through aperture or opening 2515 in the second base 2500 and is secured in the bracket 2102 by a spring 2118 journaled about the locking pin 2114, a disc-shaped washer 2120 journaled about the locking pin 2114 below the spring 2118, and a stop 2124 extending transversely through a transverse hole 2123 in the locking pin 2114. The stop 2122 maintains or supports the washer 2120, and the spring 2118 is buttoned or bottomed against the washer 2120 to create the downward force on the locking pin 2114.

(53) This embodiment of the lubricant free door lock 2100 of the present disclosure further includes: (a) a cylindrical replaceable locking pin wear protector 2300 securely insertable in and selectively removable from the first base 2200 to prevent the steel-on-steel contact between the locking pin 2114 and the inner edge of the first base 2200 which defines the aperture 2210 in the first base 2200; and (b) a cylindrical replaceable locking pin wear protector 2600 securely insertable in and selectively removable from the second base 2500 to prevent the steel-on-steel contact between the locking pin 2114 and the inner edge 2513 of the second base 2500 which defines the aperture 2510 in the second base 2500.

(54) In this embodiment, the first or upper base 2200 has the same configuration as the first or upper base 1200, the first locking pin wear protector 2300 has the same configuration as the first locking pin wear protector 1300, the second or lower base 2500 has the same configuration as the second or lower base 1500, and the second locking pin wear protector 2600 has the same configuration as the second pin wear protector 1600. In this embodiment, the first or upper base 2200 is made from the same material as the first or upper base 1200, the first locking pin wear protector 2300 is made from the same material as the first locking pin wear protector 1300, the second or lower base 2500 is made from the same material as the second or lower base 1500, and the second locking pin wear protector 2600 is made from the same material as the second locking pin wear protector 1600. However, it should be appreciated that these components can be made in alternative configurations and can be made from alternative materials in accordance with the present disclosure. These locking pin wear protectors eliminate the need for a lubricant between the steel locking pin 2114 and the bases 2200 and 2500.

(55) In this illustrated embodiment, the first or upper base 2200 is identical to the second or lower base 2500, and the locking pin wear protector 2300 is identical to the locking pin wear protector 2600. However, it should be appreciated that these components do not need to be identical in accordance with the present disclosure. It should also be appreciated that the bases 2200 and 2500 are secured or attached to the bracket 2100 in this illustrated embodiment such that they face each other, and that in alternative embodiments, the bases can be secured in other suitable manners such as facing away from each other, or both facing in one direction (such as an upward direction or a downward direction).

(56) It should be appreciated that the locking pin receipt opening 2312 of the first locking pin wear protector 2300 has a smaller inner diameter than the locking pin receipt opening 2260 of the first base 2200. This configuration causes the locking pin 2114 to engage the inner edge or surface of the first locking pin wear protector 2300 instead of engaging the first base 2200. It should also thus be appreciated that the locking pin receipt opening 2612 of the second locking pin wear protector 2600 has a smaller inner diameter than the locking pin receipt opening 2560 of the second base 2500. This configuration causes the locking pin 2114 to engage the inner edge or surface of the first locking pin wear protector 2600 instead of engaging the second base 2500.

(57) It should be appreciated that the other features, portions, parts and components of the above described embodiment of FIGS. 10 to 15 also apply to this embodiment.

(58) Referring now to FIG. 19, an alternative embodiment of the locking pin wear protector of the lubricant free door lock of the present disclosure is generally illustrated and indicated by numeral 3400. This alternative pin wear protector 3400 includes a cylindrical body 3402 having a first surface 3404, a second surface 3406, a cylindrical outer side surface 3408, and a cylindrical inner edge or locking pin engagement shoulder 3410 which defines a locking pin receipt opening 3412. The inner edge or shoulder 3410 is configured to engage the locking pin (not shown in FIG. 19). The body 3402 defines or includes a first locking arm 3420 having a first outwardly or transversely extending base engagement pin (not shown), and a second locking arm 3430 having a second outwardly or transversely extending base engagement pin 3432. The locking arms 3420 and 3430 do not include free ends, but have both ends attached to the rest of the body 3402. In this embodiment, both locking arms are configured to bend or flex inwardly.

(59) This locking pin wear protector 3400 is configured to be positioned in a base (such as any of the above described bases), and specifically in the locking pin wear protector receipt opening of a base such that: (1) the second surface 3408 engages or can engage the inner pin wear protector engagement shelf of the base; (2) the first base engagement pin extends into the first engagement pin receipt channel of the base; and (3) the second base engagement pin 3432 extends into the second engagement pin receipt channel in the base. This configuration securely (but removably) holds this locking pin wear protector 3400 in the base. An object can be inserted through the first channel in the base to dis-engage the first base engagement pin from the first engagement pin receipt channel, and thus enable the locking pin wear protector 3400 be removed from the base. This illustrated embodiment of the locking pin wear protector 3400 of the present disclosure further includes or defines aligned guides (such as grooves or water drains 3490, 3492, and 3496) which indicate to the installer the proper alignment of the engagement pins and thus the proper alignment of the locking pin wear protector 3400 in a base.

(60) In various embodiments of the present disclosure, prior to installation, one or more components of the door lock of the present disclosure is primed and painted with a suitable rust preventing primer and paint.

(61) It should be appreciated that the C-shaped bracket of the lubricant free door lock of the present disclosure can be formed in any suitable alternative manner or configuration.

(62) It should be appreciated that the locking pin wear protectors can be securely or lockably attached to the bases in other suitable manners in accordance with alternative embodiments of the present disclosure.

(63) 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.