A method of operating a conveyor system having a fixed, non-powered rail defining a conveyor path and a plurality of automated conveyor carriers (ACC). The ACCs are supported on the rail such that an interface is formed between the rail and at least one wheel of each of the ACCs. The ACCs are independently driven along the conveyor path through a plurality of work stations defining a forward direction by an on-board motor and an on-board power source selectively powering the on-board motor. A first ACC of the plurality drives itself to oscillate back and forth with respect to the forward direction at a selected one of the plurality of work stations. During the oscillating of the first ACC, a second ACC of the plurality of ACCs is stopped or moves only in a single direction.

A conveyor system including a fixed, non-powered rail defining a conveyor path, and a plurality of automated conveyor carriers supported on the rail. Each carrier includes an on-board motor, at least one wheel forming an interface with the rail, and an on-board power source selectively powering the on-board motor to drive the ACC along the rail. Each of the plurality of carriers operates to power the on-board motor from the on-board power source under the direction of instructions programmed to a local controller.

A conveyor system including a fixed, non-powered rail defining a conveyor path, and a plurality of automated conveyor carriers supported on the rail. Each carrier includes an on-board motor, at least one wheel forming an interface with the rail, and an on-board power source selectively powering the on-board motor to drive the ACC along the rail. Each of the plurality of carriers operates to power the on-board motor from the on-board power source under the direction of instructions programmed to a local controller.

An automated conveyor carrier includes a first trolley and a second trolley. The first trolley includes an on-board motor and at least one drive wheel driven from the on-board motor and configured for engagement with a conveyor rail. An on-board power source is configured to selectively power the on-board motor to drive the at least one drive wheel. The second trolley includes at least one wheel configured for engagement with the rail. A load bar connects the first trolley and the second trolley. The on-board power source is supported by the load bar between the first and second trolleys.

A brake device for a conveying device for braking a conveying vehicle moving along a movement path, including at least one brake member for creating a braking contact with the conveying vehicle. The brake member includes at least one deflection member and at least one flexible brake body with a braking-active body section, the brake body being led in a revolving manner around the at least one deflection member.

Devices and systems for aerial accumulation and transportation with high durability, high load capacity, high resistance, high flexibility and high modularity for applications in industries requiring the transportation and accumulation of parts, objects, products, materials, and others via an aerial rail are disclosed and described.

A transport apparatus includes a transport rail extending along a predetermined path, a transport vehicle configured to be movable along the transport rail to transport a material, and a brake unit mounted on the transport vehicle to be adjacent to the transport rail and configured to apply an eddy current braking force to the transport vehicle.

Provided is an overhead conveyor that conveys a carrier loaded with a workpiece. The carrier includes a primary carrier, and a secondary carrier having a hanger that supports the workpiece. The overhead conveyor includes a rotation drive device that rotates the secondary carrier around the vertical axis, a friction brake device that makes the secondary carrier non-rotatable with respect to the primary carrier, and a rotation positioning device that is disposed on a ground side, and positions the secondary carrier at a predetermined rotation end position. The friction brake device, in an operating state thereof, brings a friction member included in a main body provided in the primary carrier, into press-contact with a brake member provided in the secondary carrier.

The present invention discloses an overhead rail and trolley apparatus and method. The apparatus provides an overhead rail having one or more tracks. A wheeled trolley having a wheel or wheels travels upon the tracks. A stop unit on the rail is positioned to selectively halt the trolley. There is a cutout section on the rail and an insert that is attached to the rail at the cutout. The trolley wheels engage the upper surface of the insert when the trolley is halted by the stop unit. A plating on the insert increases the hardness of the insert upper surface. The insert helps prevent and/or at least lessens wear of apparatus when the trolley is halted by the stop unit.