A lift gate apparatus includes a movable conveyor device and a bracket. The movable conveyor device is configured to transition between a conveying position and a non-conveying position. The bracket configured to bridge a gap between the movable conveyor device and a fixed conveyor device, wherein the bracket pivots and slides over the fixed conveyor device when the movable conveyor device is transitioned from the conveying position to the non-conveying position.

A towable conveyor for transporting and elevating articles and a method and system for towing a conveyor and conveying articles up inclines is provided. The conveyor system has an elevating carriage and a plurality of support elements for conveying articles up the conveyor. Specifically, the towable conveyor system comprises a conveyor having a support frame, a plurality of support elements, a drive end with a motor, and an idle end; an elevating carriage having a first end interconnected to the support frame of the conveyor, a second with two or more wheels, and a support member extending upwardly from the elevating carriage; a cable system for raising the conveyor into a position of use and for lowering the conveyor into a towing position; one or more locking mechanisms; and a hitch for connecting the conveyor to a rear end of a towing vehicle.

Vibratory conveyors, vibratory conveyor systems, and related methods are disclosed. An exemplary vibratory conveyor includes a support frame; a pan configured to receive a conveyed material, the pan mounted for cyclic movement relative to the support frame, the pan having a pan axis generally aligned with a conveying direction; and at least two linear servomotors operatively coupled to move the pan relative to the support frame, the at least two linear servomotors comprising a first linear servomotor and a second linear servomotor. The first linear servomotor defines a first linear servomotor actuating axis, the second linear servomotor defines a second linear servomotor actuating axis, and the first linear servomotor actuating axis is oriented obliquely relative to the second linear servomotor actuating axis.

A deployable bulk material distribution apparatus for discharging from a designated height an amount of a flowable bulk material into a discharge location is provided. In one embodiment, the apparatus comprises an auger section; a bucket elevator section configured so as to be movable between: an upright position; and a reclined position wherein the bucket elevator section is substantially reclined for transport; and a joint assembly coupling the exit aperture of the auger section to the boot inlet of the bucket elevator section so as to allow the flowable bulk material to move from the exit aperture to the boot inlet when the bucket elevator section is in the upright position, the joint assembly being rotatably coupled to the boot inlet. The auger section and container operable to freely move along the bucket elevator section when it is moved between the upright and reclined positions.

A crop unloader system comprising: an elevator assembly, a boom assembly, a flexible drive, and a tensioning assembly. The elevator assembly has a frame, an elevator drive and drive motor, and an elevator drive output. The boom assembly has a frame connected to the elevator frame at a boom pivot axis to rotate through a range of motion, and an unloader drive input. The flexible drive is operatively connected between the elevator drive output and the unloader drive input. The tensioning assembly has a tensioner link and a control link that are pivotally to each other and with one of the two links each pivotally connected to one of the boom and elevator frame. An idler wheel is on the tensioner link. The tensioning assembly maintains a tension load on the endless flexible drive within a predetermined range, throughout the range of motion of the boom frame.

A belt or auger conveyor is rotatably mounted on the frame of a seed cart or tender. The conveyor is mounted on a bracket, which in turn is mounted on the housing of a brake assembly. The brake assembly is rotatably mounted on a spindle fixed to a carriage, which is rollably mounted on tracks of the frame. The carriage allows the inlet of the roller to be longitudinally positioned for receiving seed or grain from a hopper or bulk container, while the spindle allows the outlet end of the conveyor to be rotated approximately 180° for positioning above a planter, truck or other receptacle. The brake assembly allows the rotational position of the conveyor to be infinitely adjusted without limitation to preset positions.

A robotic system having a movable gantry robot (10) for conducting construction operations. The gantry may have an expandable bridge (20) and articulated gantry support legs (34) as well as a support track system (60) holding a gantry robot (800) which may hold one or more implements and peripheral devices (806). The device can be moved by propulsion mechanisms, a controller, and one or more geo-positioned control devices to provide position information for the robotic gantry as it moves back and forth along a plurality of work sites (700). The robotic gantry is connected to a power supply system (236). The controller is automated, self-navigating, and activates, deactivates, and/or changes the operation of the propulsion mechanisms, and deploys, retracts, activates, deactivates, and/or changes the operation of one or more of the construction implements. The height of the frame may be adjusted by extending and rotating risers and booms to accommodate different building heights or sub-level heights at a worksite. A conveyor system is optimized for removing dirt from or delivering material to the robotic arm. This invention can be applied to automating construction jobs including surveying, land preparation, excavation, foundation, masonry, framing, and additive fabrication.

A material-conveying system comprising a conveyor for conveying material to a bin and a conveyor positioning system associated with the conveyor. The conveyor positioning system comprises a processor for positioning the conveyor relative to the bin. The conveyor comprises a spout and the bin comprises an opening. The conveyor positioning system positions the spout of the conveyor over the opening of the bin. The conveyor positioning system in one implementation comprises a Global Navigation Satellite System-Real Time Kinematic (GNSS-RTK) positioning system that includes a fixed base station and a GNSS receiver on the conveyor.

A swing conveyor that is segmented. In one embodiment, the swing conveyor comprises an incline section that pivotally connects to an intake of a main conveyor, and includes a first belt. The swing conveyor further comprises an intake section that receives a flow of material via a second belt, and transfers the flow of material to the incline section. The first belt of the incline section transfers the flow of material received from the intake section to the intake of the main conveyor. The intake section connects to the incline section via a hinge mechanism so that the intake section pivots in relation to the incline section.

A flowable-material transfer station includes a mobile frame and a conveyor coupled thereto. A hopper mounted on the mobile frame has a side wall with an opening. A chute's loading end is rigidly coupled to the hopper at the side wall opening thereof wherein the chute is in fluid communication with the hopper via the opening. The hopper is hingedly coupled to the mobile frame and the chute's dispensing end is positioned over a first end of the conveyor. A lift mechanism is provided to move the hopper between a lowered position and a raised position. The chute's dispensing end is above the chute's loading end when the hopper is in its lowered position, and is below the chute's loading end when the hopper is in its raised position.