Telescopic conveyor with integrated indexing and measuring conveyor is described, the telescopic conveyor having a frame, at least one telescopic segment mounted so as to be extendable with respect to the frame and a transport conveyor, the transport conveyor is driven at a first conveying speed (v.sub.1) and is supported on the at least one telescopic segment and on the frame and wherein the indexing and measuring conveyor is arranged on a delivery side of the transport conveyor. The telescopic conveyor enables the packet items located thereon to be automatically separated while taking up as little space as possible. The indexing and measuring conveyor is mounted on the same frame and is driven at a second conveying speed (v.sub.2), the second conveying speed (v.sub.2) being greater than the first conveying speed (v.sub.1).

Telescopic conveyor with integrated indexing and measuring conveyor is described, the telescopic conveyor having a frame, at least one telescopic segment mounted so as to be extendable with respect to the frame and a transport conveyor, the transport conveyor is driven at a first conveying speed (v.sub.1) and is supported on the at least one telescopic segment and on the frame and wherein the indexing and measuring conveyor is arranged on a delivery side of the transport conveyor. The telescopic conveyor enables the packet items located thereon to be automatically separated while taking up as little space as possible. The indexing and measuring conveyor is mounted on the same frame and is driven at a second conveying speed (v.sub.2), the second conveying speed (v.sub.2) being greater than the first conveying speed (v.sub.1).

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 convey or 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 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 convey or 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 conveyor includes an endless belt, a boot end supporting a portion of the endless belt, a support structure, and a bridge. The endless belt includes a first run and a second run, and the first run extends along a conveyor axis. The support structure includes an end spaced apart from the boot end, a plurality of frames, and a plurality of idler rolls. The frames are spaced apart from one another and aligned with one another in a direction parallel to the conveyor axis. The idler rolls support another portion of the endless belt. The bridge extends between the boot end and the end of the support structure. The bridge is movable in a direction parallel to the conveyor axis relative to at least one of the boot end and the support structure.

A conveyor includes an endless belt, a boot end supporting a portion of the endless belt, a support structure, and a bridge. The endless belt includes a first run and a second run, and the first run extends along a conveyor axis. The support structure includes an end spaced apart from the boot end, a plurality of frames, and a plurality of idler rolls. The frames are spaced apart from one another and aligned with one another in a direction parallel to the conveyor axis. The idler rolls support another portion of the endless belt. The bridge extends between the boot end and the end of the support structure. The bridge is movable in a direction parallel to the conveyor axis relative to at least one of the boot end and the support structure.

A caster wheel alignment system for selectively re-orienting improperly oriented caster wheels for transport vehicles of a conveyor system, such as a circular sorter. The alignment system includes a main support frame couplable with the conveyor at a drive track of the conveyor. The system includes a horizontal cam for adjusting an orientation of the caster wheel from a leading orientation to a trailing orientation. In some forms, the alignment system may include a bypass system, such as a float frame, supporting the horizontal cam, and a vertical cam. The vertical cam provided to temporarily move the float frame and horizontal cam away from the transport vehicle and/or drive track to permit the vehicle to move through the alignment system. The vertical and horizontal cams coordinate to intercept and correct improperly oriented wheels without significantly impeding the movement of the transport vehicle along the drive track.

A caster wheel alignment system for selectively re-orienting improperly oriented caster wheels for transport vehicles of a conveyor system, such as a circular sorter. The alignment system includes a main support frame couplable with the conveyor at a drive track of the conveyor. The system includes a horizontal cam for adjusting an orientation of the caster wheel from a leading orientation to a trailing orientation. In some forms, the alignment system may include a bypass system, such as a float frame, supporting the horizontal cam, and a vertical cam. The vertical cam provided to temporarily move the float frame and horizontal cam away from the transport vehicle and/or drive track to permit the vehicle to move through the alignment system. The vertical and horizontal cams coordinate to intercept and correct improperly oriented wheels without significantly impeding the movement of the transport vehicle along the drive track.

Systems, methods, and computer-readable media are disclosed for systems and methods for an adjustable conveyer system. The adjustable system may include one or more conveyor systems, a support structure for a first end of the conveyor system, a support structure for the second end of the conveyor system, and a lift system. The lift system may be actuated to cause the first end of the conveyor system to raise to a height that is higher or lower than the second end of the conveyor system. The adjustable system may be used to distribute packages to containers of various heights and sizes. In one example, the lift system may include a crank shaft. In another example, the lift system may involve a pulley system.

A conveyor module 1, adapted to be releasably attached to at least one other conveyor module 1 to form a conveyor assembly 15. Each conveyor module 1 includes a substantially longitudinal main frame 4, said main frame 4 being adjustable between a first position (FIG. 3), in which said module 1 is compacted for transportation, and, a second position (FIG. 4), in which said module 1 is expanded for conveyor operation. A plurality of support legs 17 is provided to support said conveyor module 1 upon a substrate surface, each support leg being adjustable to facilitate adjustable alignment of said module 1. Conveyor componentry 12 is housed substantially within said main frame 1. The conveyor module 1 is preferably formed from or built to standardised shipping container (ISO) specifications.