A component mounting system including: a component mounting device group in which a plurality of component mounting devices that mount components supplied to a board transported in from an upstream side by a tape feeder and transport out the board to a downstream side, and cut a carrier tape after supplying the components by a cutter device and discharge scraps of carrier tape, are installed on a floor surface while being arranged in a direction of conveying the board; a main conveyor that is installed along an arrangement direction of the plurality of component mounting devices in a region on the floor surface under the component mounting device group, and transports the scraps of carrier tape discharged from each of the plurality of component mounting devices; and a scraps storage that is installed outside the region and stores the scraps of carrier tape transported by the main conveyor.

A component mounting system including: a component mounting device group in which a plurality of component mounting devices that mount components supplied to a board transported in from an upstream side by a tape feeder and transport out the board to a downstream side, and cut a carrier tape after supplying the components by a cutter device and discharge scraps of carrier tape, are installed on a floor surface while being arranged in a direction of conveying the board; a main conveyor that is installed along an arrangement direction of the plurality of component mounting devices in a region on the floor surface under the component mounting device group, and transports the scraps of carrier tape discharged from each of the plurality of component mounting devices; and a scraps storage that is installed outside the region and stores the scraps of carrier tape transported by the main conveyor.

A component mounting system including: a component mounting device group in which a plurality of component mounting devices that mount components supplied to a board transported in from an upstream side by a tape feeder and transport out the board to a downstream side, and cut a carrier tape after supplying the components by a cutter device and discharge scraps of carrier tape, are installed on a floor surface while being arranged in a direction of conveying the board; a main conveyor that is installed along an arrangement direction of the plurality of component mounting devices in a region on the floor surface under the component mounting device group, and transports the scraps of carrier tape discharged from each of the plurality of component mounting devices; and a scraps storage that is installed outside the region and stores the scraps of carrier tape transported by the main conveyor.

A component mounting system including: a component mounting device group in which a plurality of component mounting devices that mount components supplied to a board transported in from an upstream side by a tape feeder and transport out the board to a downstream side, and cut a carrier tape after supplying the components by a cutter device and discharge scraps of carrier tape, are installed on a floor surface while being arranged in a direction of conveying the board; a main conveyor that is installed along an arrangement direction of the plurality of component mounting devices in a region on the floor surface under the component mounting device group, and transports the scraps of carrier tape discharged from each of the plurality of component mounting devices; and a scraps storage that is installed outside the region and stores the scraps of carrier tape transported by the main conveyor.

A warehousing system includes a control terminal and a robot. The control terminal is configured to send a first control instruction including running path information to the robot. The robot is configured to carry a first material, move in a running path according to the running path information, and transport the first material to a conveyor line. The conveyor line includes at least one conveyor line inlet and at least one conveyor line outlet. The robot is configured to dock with the conveyor line and place the first material on the conveyor line at the at least one conveyor line inlet. The running path includes a first path section passes through the at least one conveyor line inlet, a second path section passes through the at least one conveyor line outlet and a third path section connected between the first path section and the second path section.

Method for merging, within a logistical warehouse, k incoming flows of payloads, transported respectively by k FIFO conveyor lanes α.sub.i with i∈{1, . . . , k} into one outgoing flow of payloads transported by a collector conveyor. The k lanes are distributed along the collector and numbered a.sub.1 to a.sub.k. Δ.sub.i is a time-related distance between the lanes a.sub.i and a.sub.k. A control system obtains a set L having n payloads distributed on the k lanes and having to be injected into the collector to form an exit sequence; computes a date t.sub.0 at which the first payload σ.sub.1 of the exit sequence σ passes in front of the lane a.sub.k; and computes n dates of injection of the n payloads into the collector, as a function of t.sub.0; and commands the collector and the k alleys, for an injection of the n payloads into the collector in compliance with the injection dates.

A sorting facility for sorting an article by a belt conveyor provided on a traveling carriage traveling along a conveyance path. A plurality of traveling carriages travel on the conveyance path. Each of the plurality of traveling carriages is provided with a power generation motor generating electric power by traveling of the traveling carriage. The belt conveyor provided on each of the plurality of traveling carriages is driven in a predetermined position on the conveyance path by the electric power generated by the power generation motor. The power generation motor provided in each of the plurality of traveling carriages starts generation of the electric power necessary to drive the belt conveyor in order from the power generation motor provided in the traveling carriage scheduled to pass the predetermined position on the conveyance path first, after the traveling carriages are actuated and traveling speeds become a constant speed.

A sorting facility for sorting an article by a belt conveyor provided on a traveling carriage traveling along a conveyance path. A plurality of traveling carriages travel on the conveyance path. Each of the plurality of traveling carriages is provided with a power generation motor generating electric power by traveling of the traveling carriage. The belt conveyor provided on each of the plurality of traveling carriages is driven in a predetermined position on the conveyance path by the electric power generated by the power generation motor. The power generation motor provided in each of the plurality of traveling carriages starts generation of the electric power necessary to drive the belt conveyor in order from the power generation motor provided in the traveling carriage scheduled to pass the predetermined position on the conveyance path first, after the traveling carriages are actuated and traveling speeds become a constant speed.

An article transport facility includes a main conveyor device and induction conveyors. The main conveyor device includes belt conveyors and carriage bodies. The induction conveyor includes a first conveyor device for loading article onto a second transport path and a second conveyor device that is provided for an article-loading position on a transport path and loads the article onto the belt conveyor. The first conveyor device adjusts the timing of loading the article to the article-loading position, by controlling the timing of loading the article onto the second conveyor device. The second conveyor device adjusts, on the belt conveyors, loading position of the article loaded onto the belt conveyor by controlling the timing of loading the article onto the belt conveyor.

The invention concerns a conveyor system for formatting slice-shaped food products in product stacks. The conveyor system includes an inlet, a lower product conveyor, an upper product conveyor, a vertically swiveling distributor conveyor for distributing the incoming food products selectively to the lower product conveyor or to the upper product conveyor, an output conveyor receiving the food products partially stacked from the lower product conveyor and the upper product conveyor, and an outlet for outputting the stacked food products in product rows. The individual conveying tracks of the distributor conveyor can be swivelled vertically independently of one another in order to forward the incoming food products individually for each conveying track selectively to the lower product conveyor onto the upper product conveyor.