A maintenance system is disclosed for assisting in maintaining an automated carrier system for moving objects to be processed. The maintenance system includes a plurality of automated carriers that are adapted to move on an array of discontinuous standard track sections, each said automated carrier including a carrier body that is no larger in either a length or width direction that a standard track section, and an automated maintenance carrier that is adapted to move on the array of discontinuous track sections, said automated maintenance system including a maintenance body that is larger in at least one of a length or width direction than the standard track section.

An automated carrier system is disclosed for moving objects to be processed. The automated carrier system includes a discontinuous plurality of track sections on which an automated carrier may be directed to move, and the automated carrier includes a base structure on which an object may be supported, and at least two wheels assemblies being pivotally supported on the base structure for pivoting movement from a first position to a second position to effect a change in direction of movement of the carrier.

The invention discloses an apparatus for automatically replacing fountain pen refill, and includes a box body, the left and right sides of the box body are respectively provided with a left inner cavity and a right inner cavity, an upper boss is fixedly connected to an inner wall of an upper part of the right inner cavity, and an inner wall of an upper part of the right inner cavity is fixedly connected to a lower boss at the lower left of the upper boss, a grooved wheel device is rotatably connected to the lower boss, a swivel rod device is connected below the swivel device, and a mechanical claw is fixedly connected to the lower part of the swivel device; The invention provides a relatively efficient automatic refill device, and at the same time, it can collect the used refills, which saves the time of refills and disposal of the used refills.

The invention relates generally to conveying systems, for moving work pieces from work station to work station including conveyors which generally move at a constant speed and include load carrying units which can be coupled for movement therewith between work stations and uncoupled from the conveyor so that they will be stationary at the work stations while work is done on a work piece carried by the load carrying units. More particularly, the present invention pertains to improved systems, methods, and apparatuses for joining, repairing, replacing, or altering conveyor system track and track configurations.

A running rail (1) for a conveyor system, the running rail (1) having a cross-sectional profile comprising, at least three interconnected profiled portions which comprise a first profiled portion (2), laterally open to the outside, for receiving first rollers (32) of a carriage (30), a second profiled portion (3), laterally open to the outside, for receiving second rollers (33) of a carriage (30), a third profiled portion (4), open in the vertical direction, for receiving third rollers (34) of a carriage (1), wherein the first (2) and the second profiled portion (3) are mirror symmetrical to a vertical central plane (40) of the running rail (1).

A conveyor device (100) includes a conveyor track (11, 12, 13) and a plurality of transport units conveyable along the conveyor track (11, 12, 13), at least two first guide rollers (2.1-2.7) and a conveyor chain (3), which travels over the at least two first guide rollers (2.1-2.7) and comprises catches (31), via which the conveyor chain (3) can be brought into releasable engagement with the transport units (8) for driving the transport units (8), the conveyor device (100) further including a belt (4) moving along with the conveyor chain (3) over the at least two guide rollers (2.1-2.7), wherein the belt (4), in the respective area of the first guide rollers (2.1-2.7), is arranged, respectively, between the first guide roller (2.1-2.7) and the conveyor chain (3) such that the conveyor chain (3) lies against the belt (4).

A conveyance facility for conveying a bag includes: a carrier including a traveling wheel, and a support supporting the bag being suspended, the carrier conveying the bag; and a traveling rail supporting the traveling wheel so as to be travelable. The traveling rail forms a first path, and a detour path branching from a location in the middle of the first path. A branch unit for switching a conveyance path of the carrier from the first path to the detour path is provided at a branch portion between the first path and the detour path. The branch unit is capable of directing the support from the first path to the detour path.

A linear conveyor device is installed on a platform having an upper surface which serves as a predetermined installation surface. The linear conveyor device includes a linear motor stator; a slider which includes a linear motor mover; a straight-line conveyance part formed by linearly connecting a plurality of modules to each other, the modules each including a base frame that has an upper surface having guide rails for guiding the movement of the slider and a lower surface facing the platform; and a base member disposed between the upper surface of the platform and the lower surfaces of the modules at a connecting portion between the modules, and configured to position and support the pair of modules to be connected to each other.

A bin exchange system is disclosed that includes a plurality of automated carriers, each of which is adapted to be remotely movable on an array of track sections, at least one input station by which bins may be introduced to the array of track sections, at least one processing station in communication with the array of track sections wherein objects may be moved between bins, and at least one output station by which bins may be removed from the array of track sections.

A rail attachment for supporting a support rail includes two rail brackets engaging with and securing the support rail therebetween, a connector securing the two rail brackets to one another and including an attachment unit suspending the rail brackets and support rail, each the rail bracket including a support section engaging and secured to the support rail and each bracket further including a first connection section extending over the support rail, an intermediate region and a distal region whereby the distal region is spaced from the support section by the intermediate section and wherein the distal region is of a greater length than the intermediate region as considered in a direction perpendicular to the direction in which the intermediate region spaces the distal region from the support section, and the connector including a second connection section securing the distal regions of the rail engagement brackets relative to one another.