Device for delivery of sorted elements for feeding a downstream work station that includes a downward drop that brings the elements, a one-at-a-time processor that receives the elements from the drop, an upward conveyor branch that extends from the processor and that receives the elements therefrom, and an ejector that is located in the area of the upward conveyor branch. The device includes at least one viewing unit that is positioned to monitor the elements in the area of the processor, such as a camera.

A carrier link to convey at least one pellet-shaped article along a predetermined conveyer path in a direction of travel includes at least one pocket adapted to receive a pellet-shaped article and a lead-in surface provided to an upper exterior surface of the carrier link and extending into leading edges of the pocket. Each pocket includes a longitudinal axis that is transverse to a direction of travel of the carrier link. The lead-in surface provides a ramped or declined surface into the pocket to facilitate entry of the pellet-shaped article into the pocket. The lead-in surface is ramped or declined towards a side of the carrier link to facilitate rotating, guiding, and/or orienting of the pellet-shaped article into the pocket.

According to one embodiment, a tablet printing apparatus includes: a first rotator having an inner space; a duct configured to communicate with the inner space of the first rotator; a suction pipe configured to suck inside the duct; a second rotator arranged to face the first rotator across the duct; a conveyor belt wrapped around the first rotator and the second rotator; and a print head that performs printing on a tablet held on the conveyor belt. The conveyor belt includes a plurality of suction holes which communicate with the inner space of the first rotator and that of the duct, and are arranged in the rotation direction of the first rotator. The first rotator and the duct constitutes a suction chamber that applies a suction force to those of the suction holes of the conveyor belt located around the outer periphery of the first rotator and the duct.

An automatic load table and related method are provided. The automatic load table utilizes a movable loading arm and a riser assembly with a stepped configuration. The movable loading arm is operable to move billets in a loading direction along the stepped configuration of the riser assembly. The movable loading arm is capable of lifting and separating adjacent billets in a single lifting motion.

A loose component supply device including: component support member 150 configured to support multiple components in a scattered state; component collection container 180 configured to collect the components supported on the component support member via an opening in the component collection container; and a container oscillating device configured to scatter the components collected inside the component collection container onto the component support surface by swinging the component collection container such that the opening of the collection container faces the component support member. By this, because components are scattered on the component support member directly form the component collection container, the cycle time is shortened, thereby improving practicality of a component supply device.

A feeding system comprises a hopper adapted to accommodate a plurality of different types of products, a conveyor belt positioned above the hopper and configured to convey the products, and a lifting mechanism adapted to lift the products in the hopper onto the conveyor belt. The lifting mechanism includes a transferring belt circulating around an annular path and a plurality of step plates evenly spaced along the annular path. The step plates are adapted to carry one or more of the products and the transferring belt is configured to drive the step plates to circulate around the annular path so as to lift the products from the hopper onto the conveyor belt.

A reaction vessel pickup mechanism, an automatic loading device, a sample analyzer, and a loading method are disclosed. Driven by a driving structure, each of the pickup blocks moves in a first preset time or a preset distance and then stops or shakes, so that a reaction vessel is dropped from the pickup blocks more easily.

A cascade conveyor for sorting and conveying container closures, such as for conveying and sorting screw closures in a drinks filling installation, comprising at least one sorting bar which can be moved in a conveying direction and which is orientated transversely relative to the conveying direction for conveying the container closures from a collection receptacle which receives unsorted container closures to a closure unloading zone. There may also be provided in the closure unloading zone a conveyor belt which extends when viewed in the gravitational direction below the sorting bar in order to laterally discharge container closures conveyed by the sorting bar.

The invention relates to a method for managing a module for sorting units, which involves arranging said units loose in a reservoir; sorting said units according to a specific orientation into a batch inserted into a housing, by lifting from said reservoir towards an exit at an elevation speed; expelling said batch of sorted units from said outlet towards an entrance of a supply column, said expelled units passing through a circulation area situated between said exit and said entrance. The method comprising, at said circulation area, detecting the number of units expelled in each batch; accelerating or decelerating the elevation speed depending on said number of units detected. The invention also concerns a corresponding management device.

A method for transporting material using a gravity driven pulley system is described. The method may include moving the material from a first location to a second location using a transport pulley secured to a cable and detaching the transport pulley from the cable at the second location, wherein the transport pulley is detached by a momentum of the transport pulley bringing the transport pulley into contact with a derailer attached to the cable.