A belt conveyor is configured for conveying products in a conveying direction and defines a width extending in a transverse direction orthogonal to the conveying direction, and a height direction orthogonal to the conveying and transverse directions. An ejector is fixed to the belt conveyor and acts in the transverse direction for sorting out/discharging products. The ejector has an end region which faces the product to be sorted out, and has a base body mounted in a base position on the belt conveyor by means of a holder. The basic position of the base body can be adjusted by means of an adjusting device of the holder in the transverse direction within an adjustment path so that the end area of the non-actuated ejector in the transverse direction can protrude across the belt conveyor width by at least half of that width, or more.

A conveyor system, comprising a first conveyor assembly having: an input end; an output end; and a conveyor belt arranged to convey an object from the input end toward the output end in a direction of travel. The conveyor system comprises a fluid projection mechanism, the fluid projection mechanism being arranged to provide a fluid suitable for providing a lifting force to a conveyed object as the conveyed object passes over the fluid projection mechanism.

Robotic assembly systems and methods of assembling products using planar robots. Planar movers cooperate magnetically with stators to pick products provided on an infeed and place them in a pattern on an outfeed system, wherein the movers having a clamp having at least two opposing clamping surfaces whose relative positions are continuously adjustable by a force from an object external to the mover and the stator. Sensors and controllers cooperate to precisely move the movers on the stator, particularly as a group, for the movers to pick respective products at respective picking locations. Some systems permit packaging of multiple products.

A material conveying device includes a base frame, a first conveying unit, a second conveying unit and a transfer assembly. The first conveying unit is provided on the base frame, the second conveying unit is provided on the base frame, and the transfer assembly is provided on the base frame and can transfer a material between the first conveying unit and the second conveying unit. The present disclosure further provides a processing equipment facilitating material distribution and a material distribution method.

A material conveying device includes a base frame, a first conveying unit, a second conveying unit and a transfer assembly. The first conveying unit is provided on the base frame, the second conveying unit is provided on the base frame, and the transfer assembly is provided on the base frame and can transfer a material between the first conveying unit and the second conveying unit. The present disclosure further provides a processing equipment facilitating material distribution and a material distribution method.

A traverser includes a base unit including a rail member, a moving unit configured to reciprocally move on the rail member between a first position and a second position, and a conveyance unit mounted on the moving unit and configured to convey a conveyance target object. The moving unit include a first travel roller that is a drive roller, and a drive mechanism configured to give a rotation driving force to the first travel roller. The drive mechanism includes a travel motor configured to supply the rotation driving force, and a friction transmission mechanism configured to transmit the rotation driving force of the travel motor to the first travel roller by a friction force.

A storage system includes a storage grid structure and multiple container handling vehicles. The storage grid structure includes vertical column profiles defining multiple storage columns, in which storage containers can be stored one on top of another in vertical stacks, and at least one transfer column, the column profiles are interconnected at their upper ends by top rails forming a horizontal top rail grid upon which the container handling vehicles may move in two perpendicular directions, the container handling vehicles are able to retrieve storage containers from, and store storage containers in, the storage columns, and transport the storage containers on the storage grid structure. The storage grid structure includes at least one horizontal transfer section. The storage system includes multiple container transfer vehicles and transfer rails forming a transfer rail grid upon which the container transfer vehicles may move in at least one horizontal direction.

A storage system includes a storage grid structure and multiple container handling vehicles. The storage grid structure includes vertical column profiles defining multiple storage columns, in which storage containers can be stored one on top of another in vertical stacks, and at least one transfer column, the column profiles are interconnected at their upper ends by top rails forming a horizontal top rail grid upon which the container handling vehicles may move in two perpendicular directions, the container handling vehicles are able to retrieve storage containers from, and store storage containers in, the storage columns, and transport the storage containers on the storage grid structure. The storage grid structure includes at least one horizontal transfer section. The storage system includes multiple container transfer vehicles and transfer rails forming a transfer rail grid upon which the container transfer vehicles may move in at least one horizontal direction.

A container accessing station is configured to offer multiple access points where access to each access point may be permitted through an upper working surface of the container accessing station to an underlying container that has been delivered to the access point. The container accessing station includes one or more working surface sections, access panels and blanking-off panels. Each working surface section has a common attachment configuration to allow either the access panel or the blanking-off panel to be fitted as part of the container accessing station at any of the multiple access points.

A container-transport machine that selectively ejects container includes a transporter that is movable relative to a base and grippers arranged at the transporter. Each gripper suspends a container that is to be transported. An actuator is arranged at the base so as to be stationary relative to the transporter. The actuator is disposed at an ejection position for participating in selectively ejecting an individual container. A selectively-actuatable air nozzle disposed on the base at the ejection position promotes ejection of a container when an opening lever of a gripper interacts with the actuator while the opening lever passes through an ejection position.