The present invention relates generally to apparatus for locking the gear train of a gate warning mechanism at a railroad crossing. More particularly, the present invention relates to improved apparatus that provides for positive locking of the gear train of a warning gate mechanism in a selected direction of movement.
This prior art lock bar 20 requires the maintainer to press a maintenance button located in the gate control box 21 and release it when the gate 33 is in the desired or required position. The end 28 of the lock bar 20 must then be quickly inserted into the teeth of the pinion gear 30 to prevent rotation. The mass of the counterweights 35 located on one end of the gate 33 exerts a force back through the gear train 22 keeping the lock bar 20 wedged in the teeth of the pinion gear 30. Insertion of the lock bar 20 into the teeth of pinion gear 30 is rather tricky because the pinion gear 30 is often in motion. This can present a potential hazard if the lock bar 20 is used incorrectly or if it becomes disengaged.
As can be appreciated from
A general object of the present invention is to provide an improved lock bar for restricting or limiting movement of a railroad crossing warning gate during maintenance.
Another object of the present invention is to provide a lock bar for restricting or limiting movement of a railroad crossing warning gate in either the up position or in the down position.
A further object of the present invention is to provide a lock bar in the form of a handle with a clutch assembly that permits rotation in one direction, but that restricts or limits rotation in an opposite direction.
Yet another object of the present invention is to provide a lock bar that must be removed when maintenance is completed and before a cover of the gate control box can be closed.
The present invention is directed to a lock bar for controlling the position of a railroad warning gate. The warning gate is moveable from a raised position to a lowered position by a motor drive mechanism. The lock bar includes an elongated body portion extending between a first end and a second end, a clutch mechanism disposed in the elongated body, the clutch mechanism permitting rotational movement in one direction but restricting rotational movement in an opposite direction and means disposed in the clutch mechanism for engaging a portion of the motor drive mechanism such that the railroad warning gate is permitted to move in one direction but is restricted from movement in the opposite direction. The means in said clutch mechanism for engaging a portion of the motor drive mechanism may include an internal hexagonal female surface for engaging a hexagonal shaft on the motor drive mechanism.
The lock bar includes opposing edges disposed along the elongated body portion, and preferably includes indicia disposed on a first of the opposing edges for indicating a first position that the warning gate will be retained in if the lock bar is installed on the motor drive mechanism with the first opposing edge in a generally upright manner. Preferably, the lock bar also includes indicia disposed on a second of the opposing edges for indicating a second position that the warning gate will be retained in if the lock bar is installed on the motor drive mechanism with the second opposing edge in a generally upright manner. For example, the first position of retaining the railroad warning gate may be an up position and the second position may be a down position.
The lock bar may also include an aperture defined through the lock bar, the aperture suited for receiving a pin of the motor drive mechanism therethrough to hold the lock bar in engagement with the motor drive mechanism. The aperture may be in the form of an oblong slot. The lock bar may include a lanyard, with a first end of the lanyard secured to the lock bar, and with a second end of the lanyard including means to mate the lanyard with the pin of the motor drive mechanism to secure the lock bar about the pin. The means to secure the lanyard to the pin may be a hairpin or a cotter key.
The motor drive mechanism is provided with a housing, including a cover for enclosing the motor drive mechanism. The lock bar is preferably of sufficient length between the first and second ends to prevent closure of the cover of the housing while the lock bar remains engaged with the motor drive mechanism.
The invention, together with its objects and the advantages thereof, may best be understood by reference to the following description taken in conjunction with the accompanying drawings, in which like reference numerals identify like elements in the figures, and in which:
It will be understood that the invention may be embodied in other specific forms without departing from the spirit thereof. The present examples and embodiments, therefore, are to be considered in all respects as illustrative and not restrictive, and the invention is not to be limited to the details given herein.
With reference to the drawing Figures,
A lanyard 58 is used to secure the lock bar 40 in an operational position, as will be further appreciated below. Lanyard 58 has an eyelet end 59 that may be secured to lock bar 40, as by a threaded fastener 60 in an aperture 61. Lanyard 58 also has an opposite loop end 62 for receiving a hairpin 63 therethrough. Hairpin 63 may alternatively be in the form of a cotter key or other suitable retaining means. An oblong hole or slot 52 is further defined through lock bar 40 at an intermediate position between the first end 45 and the second end 55. The use of slot 52 is presented below.
Preferably, lock bar 40 has some indicia 53 to indicate how the orientation of the lock bar will limit movement of the gate 33 that is attached to the shaft 24 (
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The oblong or slotted hole 52 provides for off-center clearance in case the distance from the hexagonal motor shaft 66 and the reaction pin 64 is not uniform in all motor drive mechanisms. Thus, slotted hole 52 is preferably designed for ample longitudinal clearance between motor shaft 66 and reaction pin 64, as well ample transverse clearance, such as in case the motor shaft 66 or the reaction pin is slightly bent, or the like. Ample clearance provided by slotted hole 52 therefore makes installation of the lock bar 40 easier.
Once the lock bar 40 is installed on the reaction pin 64 and the output shaft 66 of the motor 32, the maintainer can then press a maintenance button 68 on an electrical printed circuit board (PCB) 69 in the housing of the gate control box 21 to power the gate arm 33 to the down or horizontal position. As soon as the maintainer releases the maintenance button 68, the gate 33 will stay in this position due to the lock feature of the bearing/clutch 42 of the lock bar 40. Due to the clutch design, the gate 33 can only move one direction. If any force is applied in the opposite direction, the clutch 42 will lock and prevent movement in the opposite direction. The lock bar 40 thus prevents upward movement of the gate 33 when installed in the orientation shown in
A significant advantage of the lock bar 40 of the present invention is that the lock bar can be installed prior to any need for the warning gate 33 to be locked in the desired direction. For example, if a new crossing gate is being installed, or if the gate arm 33 has been broken off and needs replacement, due to gravity of the counterweights 35 at the opposite end, the gate will be in the vertical or up position.
Another feature of the lock bar 40 can be utilized during adjustment of the counterweights 35 on the gate 33. If the ratcheting lock bar 40 is installed 180 degrees from the position above, downward movement will be restricted. This can be used when the maintainer is changing or setting up the horizontal and vertical torque on the gate mechanism 22. The procedure is as follows. The lock bar 40 is installed as described above, the gate 33 is powered to the vertical position and gate control is removed. The gate 33 would normally power down when gate control is removed. However, the clutch bearing 42 of the lock bar 40 prevents the gate 33 from lowering. The maintainer can then adjust the counterweights 35 and remove the lock bar 40 when finished.
The lock bar 40 is preferably elongated between the first and second ends 45 and 55 such that the lock bar cannot be inadvertently left in place when attempting to close the cover 27 of the gate control box 21 after maintenance procedures have been completed. To this end and as can be appreciated in the drawing figures, the length of the lock bar 40 prevents the cover 27 of the gate control box 21 from being closed when the lock bar is installed in either of the orientations shown in FIGS. 5 or 6. Thus, the lock bar 40 cannot be inadvertently left installed on the gear drive mechanism, thereby limiting or preventing movement of the gate 33 after completion of maintenance.
While particular embodiments of the invention have been shown and described, it will be obvious to those skilled in the art that changes and modifications may be made therein without departing from the invention in its broader aspects.