Patent application number | Description | Published |
20090194376 | MANUAL WHEEL CHOCKS WITH ENHANCED BRACING UPON DEPLOYMENT - An example wheel restraint includes a wheel chock that is manually movable between a retracted or release position clear of a wheel of a vehicle at a loading dock and an operative position to block the path of the wheel. In the release position, the chock can be manually moved freely along a track that is mounted to a driveway of the dock. When the chock is manually moved from its release position to its operative position, a locking feature automatically restricts the movement of the chock relative to the track. When the chock is manually moved back to its release position, the locking feature automatically disengages. Although the wheel chock is connected to a track, much of the force exerted by the wheel against the chock can be transmitted directly from the chock to the driveway. | 08-06-2009 |
20090283999 | SUPPORT FRAME VEHICLE RESTRAINTS - A vehicle restraint restrains a vehicle at a loading dock by engaging a rail that is part of the vehicle's support frame, wherein the rail is normally used for adjusting the position of the vehicle's rear wheels. In a preferred embodiment, the restraint includes an adjustable-length arm attachable between the vehicle and the loading dock. The arm includes a retractable or removable pin that engages one of a series of holes in the rail or releasably engages some feature of the loading dock. In some examples, the restraint clamps onto the rail, particularly if the rail has no available open holes for a pin to be inserted. In some cases, the restraint also provides the vehicle with vertical support. | 11-19-2009 |
20100170754 | MANUAL WHEEL CHOCKS WITH ENHANCED BRACING UPON DEPLOYMENT - An example wheel restraint includes a wheel chock that is manually movable between a retracted or release position clear of a wheel of a vehicle at a loading dock and an operative position to block the path of the wheel. In the release position, the chock can be manually moved freely along a track that is mounted to a driveway of the dock. When the chock is manually moved from its release position to its operative position, a locking feature automatically restricts the movement of the chock relative to the track. When the chock is manually moved back to its release position, the locking feature automatically disengages. Although the wheel chock is connected to a track, much of the force exerted by the wheel against the chock can be transmitted directly from the chock to the driveway. | 07-08-2010 |
20110176896 | SUPPORT FRAME VEHICLE RESTRAINTS - Restraints for restraining a vehicle at a loading dock are described. An example restraint described herein includes a brace movable between a holding position and a release position. A first portion of the brace engages a supporting portion of the vehicle and a second portion of the brace engages a non-movable location at the loading dock to restrain the vehicle relative to the loading dock when the brace is in the holding position. For the holding position, the first portion of the brace moves in one direction underneath the vehicle to engage the supporting portion and the second portion moves in a second direction underneath the vehicle to engage the non-movable location. The first and second portions retract to allow the vehicle to move relative to the loading dock when the brace is in the release position | 07-21-2011 |
20110240416 | LATCHING MECHANISMS FOR REMOVABLE CHOCKS - Example wheel restraint systems include example wheel chocks for blocking a wheel of a vehicle at a loading dock. In some examples, the wheel chock is movable between a stored position and a wheel-blocking position. In the wheel-blocking position, the chock latches onto a track that is mounted to a driveway of the loading dock. In the stored position, the chock is spaced apart from the track. In some examples, a lifting mechanism, such as a hoist or a spring-loaded articulated arm, helps carry at least some of the chock's weight as the chock is manually moved between its stored and wheel-blocking positions. In some examples, the chock includes a rotatable lever for selectively latching and unlatching the chock to the track. | 10-06-2011 |
20110243693 | DOWNWARDLY INSERTABLE VEHICLE RESTRAINTS - Example vehicle restraints engage various features of a vehicle to restrain the vehicle at a loading dock. Some example restraints reach over and around a vehicle's rear impact guard. Some example restraints engage a hole or opening in a vehicle bed. Some example restraints are a combination bumper and blocking member. Some example restraints are a combination blocking member and a dock leveler lip. | 10-06-2011 |
20130292214 | MANUAL WHEEL CHOCKS WITH ENHANCED BRACING UPON DEPLOYMENT - An example wheel restraint includes a track to be positioned adjacent a vehicle approach path of a loading dock. A shuttle is pivotally coupled to the track via a track follower and pivots between a home position and a deployed position about a shuttle axis substantially parallel to and offset relative to a longitudinal axis of the track. A barrier is pivotally coupled to the shuttle and pivots between a non-blocking position and a blocking position about a pivot axis substantially parallel to and spaced apart from the longitudinal axis of the track such that the shuttle rotates in a first direction about the shuttle axis when the shuttle moves from the home position to the deployed position and bather rotates in a second direction about the pivot axis when the barrier moves from the non-blocking position to the blocking position, where the first direction being different than the second direction. | 11-07-2013 |
20150217951 | VEHICLE RESTRAINTS WITH ACTIVATED CATCHES - Vehicle restraints with activated catches are disclosed. An example vehicle restraint includes a main body mountable at a loading dock and to move vertically relative to the loading dock. A barrier is movable relative to the main body to selectively block and release a RIG of a vehicle, where the barrier is selectively movable to a first blocking position to block the RIG, a stored position to release the RIG, and an intermediate position between the first blocking position and the stored position. A pawl is movable relative to the barrier between an activated position and a released position. A stop is carried by the main body and a pawl actuator is coupled to at least one of the main body and the barrier. The pawl actuator has a contact surface to engage the RIG, where the contact surface is movable between a raised position and a lowered position relative to the barrier. The contact surface moves between the raised position and the lowered position in response to relative movement between the RIG and the barrier while the contact surface is in engagement with the RIG. Movement of the contact surface from the raised position to the lowered position is to cause the pawl to move from the released position to the activated position. The pawl is spaced apart from the stop when the barrier is at the intermediate position while the pawl is in the released position and the pawl to engage the stop when the barrier is at the intermediate position while the pawl is in the activated position. | 08-06-2015 |