Railroad Coupler Knuckle with External Weight Reducing Features

Abstract

A railroad coupler knuckle includes a knuckle body having a tail, a pin hole extending along a pivot axis and a front face configured to transmits the buff forces of the train; a pair of external weight saving pockets on the front face of the knuckle body extending into the knuckle body; an intervening support ridge on the front face of the knuckle body between the pair of weight saving pockets, and wherein the intervening support rib extends along a rib defining plane perpendicular to the pivot access, and wherein the rib defining plane extends through the tail of the body.

Claims

1. A coupler knuckle comprising: A knuckle body having a tail, a pin hole extending along a pivot axis and a front face configured to transmits the buff forces of the train; A pair of external weight saving pockets on the front face of the knuckle body extending into the knuckle body; An intervening support ridge on the front face of the knuckle body between the pair of weight saving pockets, wherein the improvement comprises Wherein the intervening support ridge extends along a rib defining plane perpendicular to the pivot access, and wherein the rib defining plane extends through the tail of the body.

2. The coupler knuckle according to claim 1, wherein the intervening support ridge has a width measured generally along the pivot axis and perpendicular to the rib defining plane, wherein the intervening support ridge has a substantially uniform width along the rib defining plane.

3. The E-type coupler knuckle according to claim 2 wherein the intervening support ridge extends horizontally across the front face.

4. The E-type coupler knuckle according to claim 2 wherein the pockets have a width measured generally along the pivot axis and perpendicular to the rib defining plane, and wherein the width of each pocket decreases moving in a direction away from the pivot axis..

5. The E-type coupler knuckle according to claim 4 wherein the a rate of decrease of the width of each pocket is less on a flag hole side of the pivot axis than the opposing side.

6. The E-type coupler knuckle according to claim 2 further including a tail positioned weight saving pocket on the tail of the knuckle.

7. The E-type coupler knuckle according to claim 6 wherein the tail positioned weight saving pocket extends along the rib defining plane.

8. The E-type coupler knuckle according to claim 6 wherein the tail positioned weight saving pocket extends horizontally across the tail.

9. The E-type coupler knuckle according to claim 6 wherein the tail positioned weight saving pocket has a width measured generally along the pivot axis and perpendicular to the rib defining plane, wherein the tail positioned weight saving pocket is substantially uniform width along the rib defining plane.

10. The E-type coupler knuckle according to claim 1 wherein the coupler knuckle is forged.

11. The E-type coupler knuckle according to claim 1 wherein the coupler knuckle weighs less than 90 lbs.

12. A coupler knuckle comprising: A knuckle body having a tail, a pin hole extending along a pivot axis and a front face configured to transmits the buff forces of the train; A pair of external weight saving pockets on the front face of the knuckle body extending into the knuckle body; An intervening support ridge on the front face of the knuckle body between the pair of weight saving pockets extending along a rib defining plane; and a tail positioned weight saving pocket on a tail of the knuckle extending along the rib defining plane.

13. The E-type coupler knuckle according to claim 12 wherein the coupler knuckle is forged.

14. The E-type coupler knuckle according to claim 12 wherein the coupler knuckle weighs less than 90 lbs.

15. The coupler knuckle according to claim 12, wherein the intervening support ridge has a width measured generally along the pivot axis and perpendicular to the rib defining plane, wherein the intervening support ridge has a substantially uniform width along the rib defining plane.

16. The E-type coupler knuckle according to claim 15 wherein the intervening support ridge extends horizontally across the front face.

17. The E-type coupler knuckle according to claim 15 wherein the pockets have a width measured generally along the pivot axis and perpendicular to the rib defining plane, and wherein the width of each pocket decreases moving in a direction away from the pivot axis..

18. The E-type coupler knuckle according to claim 17 wherein the a rate of decrease of the width of each pocket is less on a flag hole side of the pivot axis than the opposing side.

19. The E-type coupler knuckle according to claim 12 wherein the tail positioned weight saving pocket extends horizontally across the tail.

20. The E-type coupler knuckle according to claim 12 wherein the tail positioned weight saving pocket has a width measured generally along the pivot axis and perpendicular to the rib defining plane, wherein the tail positioned weight saving pocket is substantially uniform width along the rib defining plane.

Description

BRIEF DESCRIPTION OF THE FIGURES

[0023] FIGS. 1A-B are perspective views of the E-type coupler knuckle according to the present invention;

[0024] FIGS. 2A-2E are isometric views of the E-type coupler knuckle of FIGS. 1A-1B;

[0025] FIGS. 3A-3D are sectional views of the E-type coupler knuckle of FIGS. 1A-1B;

[0026] FIGS. 4A-4B are isometric views of the E-type coupler knuckle of FIGS. 1A-1B;

[0027] FIGS. 5A-5C are isometric views of the E-type coupler knuckle of FIGS. 1A-1B.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0028] A conventional E-type coupler knuckle is well known to those of ordinary skill in the art, and is illustrated in applicant's prior work set forth in 2017-0240189, now U.S. Pat. No. 10,486,719, which is incorporated herein by reference.

[0029] Similar to a conventional E-type coupler knuckle, the coupler knuckle o 10 of the invention includes a front face 12 which can be described as one of the surfaces of the knuckle that transmits the buff forces of the train. For reference the buff forces are the compressive forces (e.g., the cars coming together) and draft forces are the tensile forces (e.g., the cars moving apart). The nose 14 of the conventional e-type coupler knuckle is the primary contour of the knuckle that allows the coupler to mate with the adjacent coupler (via coupler knuckle rotated 180 degrees about a vertical axis).

[0030] The pulling face 16 is the surface of the knuckle 10 that transmits the draft forces through coupler. The throat 18 of the knuckle 10 is the narrow portion on the inside of the knuckle which transitions from the pulling face 16 to the tail 22. The two buffing shoulders 20 work together with the front face 12 to transmit buff forces into the coupler body through cooperating or corresponding surfaces on the coupler body.

[0031] The pulling lugs 24 are formed by a combination of a substantially straight surface and a curved or radial surface and each lug 24 engages a corresponding surface on the coupler body to transmit draft forces through the pulling lug 24 into the coupler body. The locking face 26 is a generally flat surface configured to abut the coupler lock when the lock has dropped into the locked or coupled position. In the locked or coupled position the coupler lock is sitting on the lock shelf 28 (discussed below) and the lock in this position resists the moment created by the draft forces.

[0032] The tail 22 of the E-type coupler knuckle 10 is a contoured surface that allows the knuckle 10 to pivot between coupled and uncoupled position. Further the top of the tail 22 provides surface for the lock to ride upon as knuckle 10 is pivoted to a position in which the lock drops onto the lock shelf 28 to lock the coupler knuckle 10 in position. A tail pad is opposite the tail lock and resists the moment created by the buff forces. The tail pad may be pronounced (larger) to reduce slack in the knuckle 10. The tail stop 30 is the surface of the knuckle 10 that engages with the coupler wall in the buff mode and may be considered the portion of the knuckle which transitions from the tail 22 to the spine 32.

[0033] The coupler knuckle 10 includes a hub feature 34 around the pin. It is meaningful to note that if knuckle 10 works correctly (i.e. it is not worn) then no buff or draft forces are transmitted through the pin itself. The knuckle 10 includes a pivot pin hole 36 configured to receive a pivot pin there through, about which the coupler 10 can rotate. The pivot pin hole 36 may include relief cuts or grooves to prevent binding of the pin. The knuckle 10 further includes pin protector surfaces 38 that are configured such that they cooperate with coupler components to transmit forces if the knuckler 10 starts to wear. In other words the surfaces 38 are configured to protect the pin.

[0034] The coupler knuckle 10 includes a heel 40 that may be considered as the transition from the front face 12 to the hub feature 34. Further, a thrower pad 42 is included in a bottom portion of knuckle 10 and this pad 42 cooperates with a feature of the thrower that moves with upward lifting of the lock to push against the thrower pad 42 to pivot the knuckle 10 open. The thrower pivots the knuckle 10 as the lock is lifted out of the locked position.

[0035] The coupler knuckle 10 includes a flag hole 44 which is configured to receive a safety indicator flag, which gives a universal visual indication not to couple to the car. The flag is used on a leading car when work is being conducted in an area in which coupling of the train of cars must be avoided. As noted above the knuckle 10 includes a lock shelf 28 which is configured to hold the lock when it has dropped into the locked or in the secured position. Finally the E-type knuckle 10 includes a spine 32 which is considered the transition surface from the tail stop 30 to the hub feature 10.

[0036] The E-type knuckle 10 according to one aspect of the present invention includes two external weight saving features 50 or pockets with intervening support ridge 52 on the front face 12 of the knuckle 10. The bottom of the weight saving features or pockets 50 for this embodiment are flat. The pockets 50 have a width measured generally along the pivot axis and perpendicular to the rib defining plane, and wherein the width of each pocket decreases moving in a direction away from the pivot axis. The a rate of decrease of the width of each pocket 52 is less on a flag hole 44 side of the pivot axis (36) than the opposing side.

[0037] The intervening support rib 52, also called a ridge, extends along a rib defining plane perpendicular to the pivot access, and wherein the rib defining plane extends through the tail 22 of the body of the knuckle 30. The intervening support ridge 52 extends horizontally across the front face 12. The intervening support rib or ridge 52 has a width measured generally along the pivot axis through hole 36 and perpendicular to the rib defining plane, wherein the intervening support ridge 52 is substantially (+/−10%) uniform width along the rib defining plane.

[0038] The E-type knuckle 10 according to one aspect of the present invention includes a tail positioned weight saving features 54 or pocket on the tail 22 of the knuckle 10. The tail positioned weight saving pocket 54 extends along the rib defining plane. The pocket 54 extends horizontally across the tail 22. The pocket 54 has a width measured generally along the pivot axis through hole 36 and perpendicular to the rib defining plane, wherein the pocket 54 is substantially (+/−10%) uniform width along the rib defining plane (it is noted the width of the pocket 54 is not including the curved end portions of the pocket 54 on either side of the tail 22)

[0039] Within the meaning of this application an external weight saving pocket 50 and 54 is a feature extending into the knuckle 10 from an exterior surface of the knuckle 10, and is a structure that is capable of being formed in a forging operation or casting operation without requiring an internal core. The design of the railroad knuckle 10 of the present invention allows for formation of the knuckle 10 through forging techniques and thus allows for the use of a better grade of steel compared to AAR Grade E and such forging processes will yield much higher fatigue life compared to cast knuckles.

[0040] The weight saving features 52 extend at least 70% of the width of the front face 12, at least between the axis of the pin hole 36 and the axis of the flag hole 44 in a front elevation view (technically the front elevation view is a vertical viewing plane perpendicular to the buff and draft forces).

[0041] The forged knuckle 10 shown in the figures exhibits a weight of less than 90 lbs (about 88 lbs) compared with a forged knuckle without these features (FIGS. 1A-E) of about 105 lbs, and this knuckle 10 is shown to have extended fatigue life over a comparable core cast knuckle.

[0042] While the invention has been shown in several particular embodiments it should be clear that various modifications may be made to the present invention without departing from the spirit and scope thereof. The scope of the present invention is defined by the appended claims and equivalents thereto.