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.

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.

The present disclosure relates to a drive belt tensioning system that comprises drive assembly detachably attached with mounting bracket. The drive assembly comprises assembly plate, driving mechanism rigidly affixed to the assembly plate, and driving pulley shaft protruding through assembly plate. First axis of rotation of the driving mechanism perpendicular to the assembly plate defines center of rotation of the drive assembly. The driving pulley shaft is positioned at first radial distance from the center of rotation of the drive assembly. The mounting bracket defines shaft aperture sized to receive the driving mechanism and radial driving pulley slot that extending circumferentially around a portion of the shaft aperture and sized to receive the driving pulley shaft. An application of torque causes arcuate motion of the driving pulley shaft in the radial driving pulley slot such that distance between the driven pulley and the driving pulley is altered.

Retainer rings for locking in an N-sided shaft to restrict axial movement of components sandwiched between them. The retainer rings have inner edges bounding a central bore. The inner edges are defined by a series of N arcs whose distance from the bore's center decreases gradually along the inner edge from a first end to a second end of each arc. The rings are slid on to the shaft with the corners of the shaft aligned with the first ends of the arcs. Then the rings are rotated on the shafts toward the second ends of the arcs until the corners of the shafts jam against the inner edges. A special spanner wrench can be used to tighten and loosen the rings on the shaft.

Disclosed is a conveying apparatus and method for conveying a tire layer, wherein the conveying apparatus includes a swivel conveyor with at least one endless belt or wire, a first pulley, a second pulley and a third pulley that define a minimal loop (L) for guiding the endless belt or wire along a conveying run and a return run, wherein the third pulley is arranged between the conveying run and the return run, and is swivable about a swivel axis (X) between a first swivel position and a second swivel position. The pivot position is chosen such that the length of the minimal loop when the third pulley is in the first swivel position is the same within a tolerance of less than 1 percent with respect to the length of the minimal loop when the third pulley is in the second swivel position.

A storage apparatus for transport goods includes a first conveyor, a second conveyor and a deflecting mechanism for deflecting transport goods conveyed by the first conveyor onto the second conveyor. A motor configuration is provided for motorized driving of the first conveyor and/or the second conveyor. A step is provided over which the transport goods are conveyed. The storage apparatus is configured to vertically compress the transport goods with the aid of the step. A method for storing transport goods, in particular packages, is also provided.

A storage apparatus for transport goods includes a first conveyor, a second conveyor and a deflecting mechanism for deflecting transport goods conveyed by the first conveyor onto the second conveyor. A motor configuration is provided for motorized driving of the first conveyor and/or the second conveyor. A step is provided over which the transport goods are conveyed. The storage apparatus is configured to vertically compress the transport goods with the aid of the step. A method for storing transport goods, in particular packages, is also provided.

A gearmotor assembly for use with a conveyor system has a rotatable conveyor roller extending laterally between spaced conveyor side rails. The gearmotor assembly includes an electric motor with a rotatable motor output shaft. The gearmotor assembly further includes a gear train drivingly connected to the motor output shaft. The gear train includes a train output shaft axially offset from the motor output shaft, with the train output shaft being drivingly connectable to the conveyor roller, so that rotation of the motor output shaft produces corresponding rotation of the conveyor roller.

A stretch detection system of a power transmission mechanism is connectable to a conveyor system including a motor, a rotation mechanism driven by the motor, and the power transmission mechanism driven by rotation of the rotation mechanism. The stretch detection system converts a signal of a current of the motor into a frequency domain signal, and calculates an integral value by performing integration on the frequency domain signal obtained by the frequency domain signal conversion unit, by using, as an integration range, at least one of regions of a sideband wave having a frequency determined using a rotation frequency of the rotation mechanism. A stretch diagnosis unit diagnoses a state of stretch of the power transmission mechanism by using the integral value calculated by the integral value calculation unit. Further, an output unit outputs a diagnosis result of the stretch diagnosis unit.

A stretch detection system of a power transmission mechanism is connectable to a conveyor system including a motor, a rotation mechanism driven by the motor, and the power transmission mechanism driven by rotation of the rotation mechanism. The stretch detection system converts a signal of a current of the motor into a frequency domain signal, and calculates an integral value by performing integration on the frequency domain signal obtained by the frequency domain signal conversion unit, by using, as an integration range, at least one of regions of a sideband wave having a frequency determined using a rotation frequency of the rotation mechanism. A stretch diagnosis unit diagnoses a state of stretch of the power transmission mechanism by using the integral value calculated by the integral value calculation unit. Further, an output unit outputs a diagnosis result of the stretch diagnosis unit.