A part shipping system includes a storage device configured to store part information including a part ID for identifying a part for each part and presence or absence of security, an input device configured to input information, and a control device. The control device receives designation of a part to be shipped from a user and determines whether security is applied to a received designated part based on the part information. The control device ships the designated part when it is determined that the security is not applied to the designated part. Meanwhile, the control device requests the user to input authentication information on the designated part when it is determined that the security is applied to the designated part and ships the designated part only when authentication is successful based on the authentication information input by the user through the input device.

An exchange device to exchange an exchangeable element includes an arrangement directional moving section to move with respect to the component mounting device in the arrangement direction; multiple attachment/detachment directional moving sections provided in the arrangement directional moving section to move independently of each other in the attachment/detachment direction of the exchangeable element; at least one holding section provided in each of the multiple attachment/detachment directional moving sections to hold the exchangeable element; an arrangement direction driving device to move the arrangement directional moving section in the arrangement direction; and an attachment/detachment direction driving device to move multiple attachment/detachment directional moving sections, independently of each other, in the attachment/detachment direction.

A component mounting system includes a component mounter group, a storage container, a loader, a host computer, and a production management computer. The host computer prepares jobs for each product based on a production plan for producing multiple types of products in which predetermined various types of components are mounted on a mounting target and sets a job in the jobs so prepared that satisfies a specified determination condition as a determined job. The production management computer shares the determined job with the host computer, makes a processing preparation for the determined job and thereafter causes the loader to unload and/or load component supply devices based on the results of the processing preparation for the determined job.

An article management apparatus allocates articles necessary for a board working machine out of the articles stored in a storage based on a production plan of the board working machine that performs a predetermined board work on the board to produce the board product. The article management apparatus includes a first setting section, a second setting section, and a selecting section. The first setting section allows a user of the board working machine to set a restriction condition for each production plan of the board product. The second setting section allows the user to set a priority among multiple priority elements when allocating the articles for the articles needed in a case of producing the board product under the restriction condition set by the first setting section. The selecting section allocates the articles based on the priority of the priority element set by the second setting section.

A mounting system including a component mounter, a storage, and a unit exchange device includes a selection section that selects a combination of the specific component feeding unit and the related component feeding unit from the component feeding unit stored in the storage based on combination information indicating a combination of the characteristic rank of the specific component and a component type of the related component corresponding to the characteristic rank, and storage information including the component type, a position, and the characteristic rank of the specific component of the component feeding unit stored in the storage; and a control section that controls the unit exchange device to take out the combination of the specific component feeding unit and the related component feeding unit from the storage and to convey the combination to the component mounter.

An automatic conveyance apparatus includes a first loading surface, an adjustment device, a movement device, and a control section. The control section drives the movement device to move the member between the first loading surface and the second loading surface when the automatic conveyance apparatus is positioned at a member delivery position and/or a member pickup position where the automatic conveyance apparatus delivers and/or picks up the member and when the height and the inclination of the first loading surface are adjusted in accordance with the height position and the inclination position of the second loading surface by the adjustment device. The automatic conveyance apparatus is configured to travel between multiple predetermined positions including the member delivery position and/or the member pickup position.

An information processing device configured to determine a mounting position of a tape feeder to any one of multiple feeder mounting sections formed in a work machine, in which mounting positions of two or more tape feeders configured to supply components of holding target held by two or more holding tools of a work head disposed in the work machine are determined to any one of the multiple feeder mounting sections based on position information indicating supply positions of the two or more tape feeders, so that a difference in an amount of deviation of the supply positions of the two or more tape feeders is within a predetermined range.

A manufacturing system according to the present disclosure includes one or more manufacturing apparatuses, a carrier, and a control system. Each of the one or more manufacturing apparatuses performs predetermined work on a board. The carrier carries a burden. The control system controls carrying work by the carrier. The burden includes a plurality of functional modules. Each of the plurality of functional modules provides a predetermined function for the one or more manufacturing apparatuses. The carrier includes a coupling portion to be coupled to any of the plurality of functional modules. The control system has at least one functional module, selected from the plurality of functional modules and coupled to the coupling portion, carried by the carrier.

An article management apparatus allocates articles necessary for a board working machine out of the articles stored in a storage based on a production plan of the board working machine that performs a predetermined board work on the board to produce the board product. The article management apparatus includes a first setting section, a second setting section, and a selecting section. The first setting section allows a user of the board working machine to set a restriction condition for each production plan of the board product. The second setting section allows the user to set a priority among multiple priority elements when allocating the articles for the articles needed in a case of producing the board product under the restriction condition set by the first setting section. The selecting section allocates the articles based on the priority of the priority element set by the second setting section.

Implementations of the present disclosure include a component storage and retrieval system that includes a storage stack, an operator access station, and an automated elevator. The storage stack defines discrete tray storage locations. The operator access station includes a surface adapted to support a tray. The automated elevator moves a tray from the access station surface to a designated one of the discrete tray storage locations, and retrieves a selected tray from the storage stack and brings the selected tray to the access station. The access station includes a camera positioned such that a tray supported on the surface is within a field of view of the camera. The camera generates data representing an image of the tray, from which the system identifies a component on the tray, and determines where on the tray the component is located. The system communicates the identified location to an operator.