The present invention relates to rotating platform members and mechanisms for limiting the rotation of such members. In greater particularity, the present invention relates to rotatable platforms mounted on carriages such as a rail mounted chassis or frame and having a working element mounted to the platform mechanism. In still greater particularity, the present invention relates to a mobile track crane or similar vehicle wherein the crane is mounted on a rotatable upper assembly supported on a track engaging carriage. Specifically, the present invention is related to a resilient stop mechanism to limit the rotational movement of a track crane to prevent the crane from fouling equipment on an adjacent track.
Proper maintenance of railroad track requires the periodic removal and replacement of worn or degraded ties from beneath the rails. Modern railroad maintenance utilizes tie cranes to move the ties to and from the track bed. A stand alone tie crane is exemplified by the Model 12-12 Tie Crane available from the Kershaw Division of Progress Rail, owner of the present application. Such tie cranes are self propelled and include a lower frame and an upper platform mounted to the lower frame on a large diameter slewing ring which allows the upper deck to rotate a full 360 degrees. The crane boom is mounted to the upper platform and moves with the platform. In environments where two tracks are adjacent, care must be taken that the crane boom does not extend beyond the clearance guideline of the adjacent track. Known technology requires the operator to dismount from the cab to place fixed mechanical stops in position to arrest the movement of the platform and boom towards the adjacent track. The stops provide a sudden stop that is jarring to the operator and the equipment with associated wear on both.
It is the object of the present invention to insure that the tie crane boom does not foul the clearance guidelines of an adjacent track while the operator is working.
Yet another object of the invention is to enable the operator to set the stops to arrest rotation of the crane boom from within the operator cabin.
Still another object of the invention is to reduce the shock and wear on the operator and the equipment during engagement with the stops.
These and other objects, which will become apparent from a reading of the specification, are accomplished using an operator actuated retractable engagement bar mounted to the rotatable platform. When extended the bar will engage a sliding stop mounted for movement between two resilient members mounted to the support carriage. As the platform turns, the bar moves the sliding stop into engagement with one of the resilient members which arrests movement of the platform in angular direction it had been moving. A second sliding stop and pair of resilient members are mounted on the opposite end of the carriage such that rotation of the platform on the work side of the carriage is unobstructed but also such that the platform is prevented from rotating in either angular direction a distance sufficient to foul the adjacent track.
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As seen in
With the stop bar 41 retracted, the platform 13 is capable of rotating 360 degrees on slewing ring 18. When the tie crane needs to operate in a mode that will prevent the crane from interfering with an adjacent track, the operate moves the crane to the side of the track he will work on, namely opposite the adjacent track, and extends stop bar 41. If the platform rotates toward the other track, stop bar 41 engages post 32 and urges sliding stop 21 along rod 22 until stop 21 engages the elastomeric member 27 or 28 closest to the adjacent track. The elastomeric member aborbs the energy of the moving platform and stops the platform near the end of rod 22. As shown in
While the present invention is shown in a single embodiment, it is to be understood that various components may be implemented in various ways without departing from the scope or spirit of the invention which is set forth in the appended claims.