ALIGNMENT RESTORATION DEVICE FOR LOAD TRANSPORTING APPARATUS
First Claim
1. A load transporting apparatus configured to move a load over a ground surface in one or more incremental steps each including a load-movement phase and a recovery phase, the load transporting apparatus coupled to a load-bearing frame configured to support the load, the load transporting apparatus comprising:
- a first support foot structured to interface with the ground surface, the first support foot having a length, width, and longitudinal centerline bisecting the width of the first support foot;
a second support foot structured to interface with the ground surface, the second support foot having a length, width, and longitudinal centerline bisecting the width of the second support foot;
first and second roller tracks respectively coupled to the first support foot and second support foot via a first king pin connector and a second king pin connector, respectively;
first and second roller assemblies respectively positioned on the first and second roller tracks, each roller assembly including a roller frame and one or more rollers set in the roller frame;
first and second lift mechanisms respectively coupled to the first and second roller assemblies;
the first and second lift mechanisms each including a lift cylinder connected to the load-bearing frame, and a cylinder rod, where each of the first and second lift mechanisms are structured to lift the load-bearing frame at the start of the load-movement phase;
first and second travel mechanisms respectively coupled to the first and second roller assemblies, each of the travel mechanisms structured to move the respective roller assembly relative to the respective support foot during the load-movement phase;
a first linking device coupled to the first support foot;
a second linking device coupled to the second foot;
a first biasing device connected to the first linking device, the first biasing device structured to become activated during a load-movement phase when the first roller assembly is non-linearly displaced by the first travel mechanism relative to the first support foot, and structured to return the first support foot to an aligned position relative to the load-bearing frame during a recovery phase; and
a second biasing device connected to the second linking device, the second biasing device structured to become activated during a load-movement phase when the second roller assembly is non-linearly displaced by the second travel mechanism relative to the second support foot, and structured to return the second support foot to an aligned position relative to the load-bearing frame during a recovery phase.
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Accused Products
Abstract
Embodiments of the present invention are directed to a load transporting apparatus that automatically aligns a support foot of the apparatus with a load-bearing frame connected to the load transporting apparatus during a recovery phase of an incremental walking movement. In particular, the load transporting apparatus includes a linking device attached to a support foot of the apparatus and a biasing device connected to the linking device that is deflected during non-linear load transporting movements, where the biasing device acts to automatically return the support foot to an aligned position relative to the load-bearing frame after a non-linear movement has been completed and the support foot is raised above a ground surface.
22 Citations
24 Claims
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1. A load transporting apparatus configured to move a load over a ground surface in one or more incremental steps each including a load-movement phase and a recovery phase, the load transporting apparatus coupled to a load-bearing frame configured to support the load, the load transporting apparatus comprising:
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a first support foot structured to interface with the ground surface, the first support foot having a length, width, and longitudinal centerline bisecting the width of the first support foot; a second support foot structured to interface with the ground surface, the second support foot having a length, width, and longitudinal centerline bisecting the width of the second support foot; first and second roller tracks respectively coupled to the first support foot and second support foot via a first king pin connector and a second king pin connector, respectively; first and second roller assemblies respectively positioned on the first and second roller tracks, each roller assembly including a roller frame and one or more rollers set in the roller frame; first and second lift mechanisms respectively coupled to the first and second roller assemblies;
the first and second lift mechanisms each including a lift cylinder connected to the load-bearing frame, and a cylinder rod, where each of the first and second lift mechanisms are structured to lift the load-bearing frame at the start of the load-movement phase;first and second travel mechanisms respectively coupled to the first and second roller assemblies, each of the travel mechanisms structured to move the respective roller assembly relative to the respective support foot during the load-movement phase; a first linking device coupled to the first support foot; a second linking device coupled to the second foot; a first biasing device connected to the first linking device, the first biasing device structured to become activated during a load-movement phase when the first roller assembly is non-linearly displaced by the first travel mechanism relative to the first support foot, and structured to return the first support foot to an aligned position relative to the load-bearing frame during a recovery phase; and a second biasing device connected to the second linking device, the second biasing device structured to become activated during a load-movement phase when the second roller assembly is non-linearly displaced by the second travel mechanism relative to the second support foot, and structured to return the second support foot to an aligned position relative to the load-bearing frame during a recovery phase. - View Dependent Claims (2, 3, 4, 5)
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6. A load transporting apparatus configured to move a load over a base surface in one or more incremental steps each including a load-movement phase and a recovery phase, the load transporting apparatus comprising:
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a lift mechanism structured to lift a load-bearing frame supporting the load; a first support foot connected to the lift mechanism, the first support foot structured to interface with the base surface; a roller assembly coupled to the lift mechanism; a travel mechanism coupled to the roller assembly, the travel mechanism structured to displace the roller assembly relative to the first support foot; one or more linking devices coupled to the first support foot; and one or more biasing devices coupled to the linking devices, the biasing devices structured to become activated during a load-movement phase when the roller assembly is non-linearly displaced by the travel mechanism relative to the first support foot, and structured to return the first support foot to an aligned position relative to the load-bearing frame during a recovery phase. - View Dependent Claims (7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23)
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24. A method of aligning a support foot of a load transporting device relative to a load-bearing frame during a load-transporting movement, the load transporting device including a roller assembly coupled to the lift mechanism, a travel mechanism structured to displace the roller assembly relative to the support foot, one or more linking devices coupled to the support foot, and one or more biasing devices coupled to the linking devices, the method comprising:
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activating the lift mechanism to lower the support foot to a ground surface and raising a load supported by a frame; activating the travel mechanism to displace the roller assembly connected to the lift mechanism relative to the support foot and ground surface, thereby moving a position of the load; deflecting the biasing devices when movement of the roller assembly results in an angular displacement between a centerline of the support foot and an orientation of the load-bearing frame; activating the lift mechanism to lower the load on the frame and raising the support foot from the ground surface; and automatically aligning the centerline of the support foot relative to the orientation of the load-bearing frame.
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Specification