A conveying system for shock-sensitive items, in particular eggs, comprises a plurality of conveying devices in which the items are transferred from one conveying device to another. More particularly, the items are transferred from a conveying device oriented in a substantially horizontal direction to an adjacent conveying device oriented in a substantially vertical direction, without the risk of being damaged. The advancing movement of the conveying device having a substantially horizontal orientation is not movement at constant speed but, on the contrary, it is a movement at variable speed, sometimes accelerated and sometimes decelerated, and the transfer of the conveyed item from the conveying device to the conveying device having a substantially vertical orientation takes place when the advancement speed of the conveying device having a substantially horizontal orientation is at its minimum value.

A transport attachment (1) for a plate conveyor (100; 200) for conveying material includes a transport plate (50) for conveying the material on a transport surface (10) of the transport plate (50). A connection device (40) has a fastening element (42) for fastening the transport attachment (1) to a driven traction element (150) of the plate conveyor (100; 200). At least one lateral supporting surface (41) is used for laterally supporting the transport attachment (1) in a curve of the plate conveyor (100; 200).

The present disclosure provides a modular belt having two or more longitudinal belt sections. Each belt section includes a traction element having a cord and a plurality of drive elements attached to the cord. The drive elements are spaced apart along a length of the cord. The belt section further includes a plurality of belt plates. Each belt plate is removably attached to a corresponding drive element of the traction element. The belt section may comprise at least one additional traction element to which each belt plate is attached. In this way, each belt plate may be attached to two or more traction elements. The modular belt includes two or more connectors, wherein each connector is configured to longitudinally couple two belt sections in order to form the modular belt as an endless belt.

A flatwire conveyor belt assembly includes pickets defining a leading link and a trailing link, wherein adjacent pickets are coupled with a cross-rod that extends through openings formed in the leading link and in the trailing link of adjacent pickets. Top plates are coupled to the pickets and define a conveying surface.

A conveyor system integrates lane dividers to form a plurality of product lanes across a conveyor belt carryway while providing conduits enabling transverse fluid flow across the carryway. Each lane divider includes a body defining edges of adjacent conveyor belt lanes and hinge elements or other attachment means for integrating the lane divider into a modular conveyor belt. The body has lateral conduits to allow transverse fluid flow therethrough.

A product order fulfillment system including a multi-level transport system and a lifting transport system. Each level of the multi-level transport system having a corresponding independent asynchronous level transport system separate and distinct from the asynchronous level transport system corresponding to each other level of the multi-level transport system. Each independent lift axis of the lifting transport system being configured to independently hold at least one case and being communicably coupled to each asynchronous level transport system so as to provide for exchange of the at least one case between each asynchronous level transport system and each independent lift axis. Each independent lift axis is communicably coupled to each other independent lift axis of the more than one lift axis and forms a common output of mixed cases so as to create an ordered sequence of mixed cases in accordance to a predetermined case out ordered sequence.

A product order fulfillment system including a multi-level transport system and a lifting transport system. Each level of the multi-level transport system having a corresponding independent asynchronous level transport system separate and distinct from the asynchronous level transport system corresponding to each other level of the multi-level transport system. Each independent lift axis of the lifting transport system being configured to independently hold at least one case and being communicably coupled to each asynchronous level transport system so as to provide for exchange of the at least one case between each asynchronous level transport system and each independent lift axis. Each independent lift axis is communicably coupled to each other independent lift axis of the more than one lift axis and forms a common output of mixed cases so as to create an ordered sequence of mixed cases in accordance to a predetermined case out ordered sequence.

A processing system includes a conveyance path including a plurality of conveyance modules configured to convey a carriage, the plurality of conveyance modules being disposed to convey the carriage to a plurality of positions, a processing apparatus configured to perform processing on a work mounted on the carriage, and a control unit configured to control the plurality of conveyance modules and the processing apparatus, wherein the control unit is configured to, in performing the processing on the work at the plurality of positions by the processing apparatus, move the work to the plurality of positions by moving the carriage using the conveyance modules.

A processing system includes a conveyance path including a plurality of conveyance modules configured to convey a carriage, the plurality of conveyance modules being disposed to convey the carriage to a plurality of positions, a processing apparatus configured to perform processing on a work mounted on the carriage, and a control unit configured to control the plurality of conveyance modules and the processing apparatus, wherein the control unit is configured to, in performing the processing on the work at the plurality of positions by the processing apparatus, move the work to the plurality of positions by moving the carriage using the conveyance modules.

Provided is a transport device that can transport two or more types of articles without necessarily requiring a change of parts. The transport device includes a guide extending in a transport direction of an article, and a holding unit configured to hold the article between the holding unit and the guide and to move in the transport direction. The holding unit includes two or more roller units. In each roller unit, two or more rollers, including a first roller and a second roller with a diameter larger than a diameter of the first roller, are aligned along an axial direction. The holding unit is movable in the axial direction. The holding unit is moved in the axial direction to thereby switch the rollers abutting the article among the two or more rollers.