IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0690555
(2010-01-20)
|
등록번호 |
US-8499897
(2013-08-06)
|
발명자
/ 주소 |
- Brooks, Andrew
- Wieberdink, Benjamin
- Stone, Bradley J.
- Lessard, Kurt
- Hahn, Norbert
- Cotton, Timothy
|
출원인 / 주소 |
- Rite-Hite Holding Corporation
|
대리인 / 주소 |
Hanley, Flight & Zimmerman, LLC.
|
인용정보 |
피인용 횟수 :
7 인용 특허 :
15 |
초록
▼
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 t
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.
대표청구항
▼
1. A wheel restraint that can engage a wheel of a vehicle at a loading dock, wherein the wheel lies along a tire path on a driveway of the loading dock, the wheel restraint comprising: a track defining a longitudinal centerline and being mountable to the loading dock at a substantially fixed locatio
1. A wheel restraint that can engage a wheel of a vehicle at a loading dock, wherein the wheel lies along a tire path on a driveway of the loading dock, the wheel restraint comprising: a track defining a longitudinal centerline and being mountable to the loading dock at a substantially fixed location in proximity with the tire path;a track follower mounted to the track for translation along the track in a direction generally parallel to the longitudinal centerline;a shuttle mounted to the track follower and being selectively rotatable about the centerline of the track between a home position and a deployed position, the shuttle is closer to the tire path when the shuttle is in the deployed position than when shuttle is in the home position; anda barrier mounted to the shuttle and being selectively movable relative thereto between a release position and a blocking position, the barrier extending farther away from the track when the barrier is in the blocking position than when the barrier is in the release position. 2. The wheel restraint of claim 1, wherein movement of the barrier from the release position to the blocking position is in coordinated response to the shuttle moving from the home position to the deployed position. 3. The wheel restraint of claim 2, wherein the barrier is pivotally coupled to the shuttle. 4. The wheel restraint of claim 2, wherein the shuttle is configured to both pivot and translate relative to the track. 5. The wheel restraint of claim 2, wherein the barrier is connected to the shuttle at a first pivotal axis, the shuttle is connected to the track follower at a second pivotal axis, and the first pivotal axis is spaced apart from the second pivotal axis. 6. The wheel restraint of claim 2, wherein the barrier, upon approaching the blocking position, and the shuttle, upon approaching the deployed position, rotate in opposite clockwise and counterclockwise directions. 7. The wheel restraint of claim 2, further comprising a brace engaging the track and extending between the barrier and the shuttle, the brace being movable relative to both the barrier and the shuttle, the brace being selectively movable between a bracing position to help support the barrier and a non-bracing position to release the barrier, the brace being in the bracing position when the shuttle is in the deployed position with the barrier in the blocking position, the brace being in the non-bracing position when the shuttle is in the home position with the barrier in the release position, the brace comprising a plurality of interconnected links that engage the track to coordinate the movement of the barrier and the shuttle. 8. The wheel restraint of claim 2, further comprising a latching device comprising a first latching element and a second latching element, the first latching element being disposed on the track, the second latching element being disposed on the shuttle, the first latching element being spaced apart from the second latching element when the shuttle is in the home position, the first latching element engaging the second latching element when the shuttle is in the deployed position, the first latching element engaging the second latching element to inhibit relative translation of the track follower along the track, and the first latching element disengaging the second latching element to permit relative translation of the track follower along the track. 9. The wheel restraint of claim 1, wherein the barrier and the shuttle upon approaching the blocking position and the deployed position, respectively, the barrier and the shuttle both rotate in the same direction, both clockwise or both counterclockwise, depending on a view of reference. 10. The wheel restraint of claim 9, wherein the barrier includes two ends and an intermediate point therebetween, the two ends engage the shuttle, the intermediate point being horizontally farther away from the track than that of the two ends when the barrier and the shuttle are in the blocking position and the deployed position, respectively. 11. The wheel restraint of claim 9, wherein the barrier is connected to the shuttle at a first pivotal axis, the shuttle is connected to the track follower at a second pivotal axis, and the first pivotal axis is spaced apart from the second pivotal axis. 12. The wheel restraint of claim 9, a latching device comprising a first latching element and a second latching element, the first latching element being disposed on the track, the second latching element being disposed on the shuttle, the first latching element being spaced apart from the second latching element when the shuttle is in the home position, the first latching element engaging the second latching element when the shuttle is in the deployed position, the first latching element engaging the second latching element inhibits relative translation of the track follower along the track, the first latching element disengaging the second latching element permits relative translation of the track follower along the track. 13. The wheel restraint of claim 1, wherein the barrier in the release position is collapsed within the shuttle such that substantially none of the barrier extends beyond an outer surface of the shuttle. 14. The wheel restraint of claim 1, wherein the shuttle in the deployed position is configured to be spaced apart from the driveway. 15. A wheel restraint to engage a wheel of a vehicle at a loading dock, wherein the wheel lies along a tire path on a driveway of the loading dock, the wheel restraint comprising: a track defining a longitudinal centerline and being mountable to the loading dock at a substantially fixed location in proximity with the tire path;a track follower mounted to the track for translation along the track in a direction generally parallel to the longitudinal centerline;a shuttle mounted to the track follower and being selectively movable relative thereto between a home position and a deployed position, the shuttle is closer to the tire path when the shuttle is in the deployed position than when shuttle is in the home position;a barrier mounted to the shuttle and being selectively movable relative thereto between a release position and a blocking position, the barrier extending farther away from the track when the barrier is in the blocking position than when the barrier is in the release position; anda brace extending between the barrier and the shuttle, the brace being movable relative to both the barrier and the shuttle, the brace being selectively movable between a bracing position to help support the barrier and a non-bracing position to release the barrier, the brace being in the bracing position when the shuttle is in the deployed position with the barrier in the blocking position, and the brace being in the non-bracing position when the shuttle is in the home position with the barrier in the release position. 16. The wheel restraint of claim 15, wherein the barrier includes a proximal end and a distal end, the proximal end being attached to the shuttle, the distal end extending over the tire path when the barrier is in the blocking position while the shuttle is in the deployed position, the brace being pivotally connected to the distal end of the barrier. 17. The wheel restraint of claim 15 wherein the shuttle is configured to both pivot and translate relative to the track. 18. The wheel restraint of claim 15, wherein the barrier is pivotally connected to the shuttle. 19. The wheel restraint of claim 15, wherein the barrier is connected to the shuttle at a first pivotal axis, the shuttle is connected to the track follower at a second pivotal axis, and the first pivotal axis is spaced apart from the second pivotal axis. 20. The wheel restraint of claim 15, a latching device comprising a first latching element and a second latching element, the first latching element being disposed on the track, the second latching element being disposed on the shuttle, the first latching element being spaced apart from the second latching element when the shuttle is in the home position, the first latching element engaging the second latching element when the shuttle is in the deployed position, the first latching element engaging the second latching element to inhibit relative translation of the track follower along the track, and the first latching element disengaging the second latching element to permit relative translation of the track follower along the track. 21. A wheel restraint to engage a wheel of a vehicle at a loading dock, wherein the wheel lies along a tire path on a driveway of the loading dock, the wheel restraint comprising: a track defining a longitudinal centerline and being mountable to the loading dock at a substantially fixed location in proximity with the tire path;a track follower mounted to the track for translation along the track in a direction generally parallel to the longitudinal centerline;a shuttle mounted to the track follower and being selectively movable relative thereto between a home position and a deployed position, the shuttle is closer to the tire path when the shuttle is in the deployed position than when shuttle is in the home position, wherein the shuttle in the deployed position is configured to directly contact the driveway; anda barrier mounted to the shuttle and being selectively movable relative thereto between a release position and a blocking position, the barrier extending farther away from the track when the barrier is in the blocking position than when the barrier is in the release position. 22. A method for blocking a wheel of a vehicle at a loading dock, wherein the wheel lies along a tire path on a driveway of the loading dock, and the method involves the use of a track, a track follower, a shuttle and a barrier, the method comprising: moving the track follower along a length of the track, the track defining a longitudinal axis;moving the shuttle toward the tire path by rotating the shuttle about the longitudinal axis of the track from a home position to a deployed position relative to the track follower; andmoving the barrier relative to the shuttle from a release position to a blocking position, wherein the barrier extends at least within the tire path when the barrier is in the blocking position while the shuttle is in the deployed position. 23. The method of claim 22, wherein moving the shuttle and the barrier comprises rotating the shuttle and the barrier in opposite rotational directions. 24. The method of claim 22, wherein moving the shuttle and the barrier comprises rotating the shuttle and the barrier in the same rotational direction. 25. The method of claim 22, wherein moving the shuttle from the home position to the deployed position and moving the barrier from the release position to the blocking position is performed simultaneously. 26. The method of claim 22, wherein moving the barrier relative to the shuttle comprises rotating the barrier about a first axis, and moving the shuttle relative to the track follower comprises rotating the shuttle about a second axis, wherein the first axis is spaced apart from the second axis, the first axis being substantially parallel relative to the second axis. 27. The method of claim 22, further comprising locking the track follower onto the track upon moving the shuttle from the home position to the deployed position. 28. The method of claim 22, wherein moving the track follower along the length of the track, moving the shuttle toward the tire path, and moving the barrier relative to the shuttle are all performed manually.
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