In mounter, work using multiple suction nozzles is executed by executing an exchange of suction nozzles between nozzle station and mounting head. In addition, placement positions of suction nozzles at nozzle station are set so that the distance between accommodation section at the nozzle station and part camera is shorter for the suction nozzle to be exchanged more times at the nozzle station. Then, for exchange of suction nozzles during mounting work, the suction nozzle attached to the mounting head is returned to a placement section corresponding to a set placement position. As a result, placement positions at the nozzle station are rearranged into the set placement positions, so that the distance that the mounting head moves for nozzle exchange can be made shorter, which makes it possible to reduce the time required for nozzle exchange.

Provided is a method for operating an electronic component mounting system including component storages including a dry box. The method includes maintaining a material management table including a whereabouts information field for indicating whether an electronic component is stored in the dry box, a target indicator field for indicating whether an electronic component is a moisture management target component, and an exposure time field for indicating an exposure time during the moisture management target component has been in an atmospheric exposure state. The method also includes pausing counting the exposure time when the moisture management target component is stored in the dry box, identifying a moisture management target component of which the exposure time has met or exceeded an exposure limit time based on the whereabouts information table, and notifying the identified moisture management target component to an apparatus.

Provided is a method for operating an electronic component mounting system including component storages including a keeping rack, a dry box and a dryer. The method includes, after a reel of a moisture sensitive device is dispatched from a component keeping area and setup to a tape feeder is performed in an external setup area, measuring a exposure time for which the moisture sensitive device is in an atmospheric exposure state is in a reel unit, and comparing the exposure time with an exposure limit time set for the moisture sensitive device and stored in a storage. The method includes stopping using the reel of the moisture sensitive device whose exposure time exceeds the exposure limit time.

A component mounting system includes a head to revolve multiple suction nozzles in a circumferential direction, a lifting and lowering device configured to lift and lower a suction nozzle at a predetermined revolving position, a storage device configured to store any one of multiple pieces of directionality information in association with identification information of the suction nozzle, and a control device configured to acquire corresponding directionality information from the storage device based on the acquired identification information of the suction nozzle and to perform pickup of the component supplied from the component supply device at the spinning position in accordance with the directionality information.

A working machine causes a working mechanism to install, on a workpiece, a storing-target body stored in a tape. The working machine includes: a storing-target-body supply device that supplies the storing-target body stored in the tape to the working mechanism; and a drive device that gives a drive force to the storing-target-body supply device. The storing-target-body supply device includes a supply-reel storage that stores a supply reel around which the tape storing the storing-target body is wound, a tape feed mechanism that unwinds the tape from the supply reel so as to feed the storing-target body to a predetermined supply position, and a drive transmitting mechanism that transmits, to the tape feed mechanism, the drive force given from the drive device.

A feeder management device and method for managing feeders when producing a board based on a production plan including a board conveyance device; a component supply device in which multiple feeders are detachably mounted at multiple installation positions; and an electronic component mounter including a component transfer device. The method including a current state memory step of linking and storing a current component type of the electronic components, being supplied by the currently mounted feeder, and a position of the mounted feeder; a plan memory step of linking and storing required component types of the electronic components, being mounted on the multiple types of boards, and a position of the feeder of supplying the required components; and a reel removal guide step to remove a first reel from a first feeder of supplying the electronic components of which current state component type does not match the required component types.

The present disclosure is directed to a system and method to identify and track parts of a semiconductor processing chamber, as well as the status of the parts, and store status information in a centralized location as status changes over time.

A component mounting system including multiple component mounting devices to collect components from feeders set at multiple feeder holding sections and mount the components on a board, the multiple feeder holding sections being provided on each of the multiple component mounting devices to removably hold the feeders; and a feeder exchanging device to move along a line along which the multiple component mounting devices are arranged and exchange feeders with respect to each of the component mounting devices. The component mounting system acquires a type and arrangement of each of the feeders set on the multiple component mounting devices, determines whether each of the feeders is set at a predetermined appropriate position, and upon determining that there is a feeder that is not set at the appropriate position, uses the feeder exchanging device to reset the feeder that is not set at the appropriate position.

The present disclosure is directed to a system and method to identify and track parts of a semiconductor processing chamber, as well as the status of the parts, and store status information in a centralized location as status changes over time.

A component mounting machine includes a tool station and a determination section. The tool station detachably accommodates a holding member including a main body section which can hold a component to be mounted on a board and multiple identification sections which can identify multiple accommodation angles. The determination section determines an angle difference in which the accommodation angle of the holding member differs from a predetermined accommodation angle. At least one identification section of the multiple identification sections is defined as a first identification section, the at least one identification section being exposed when the accommodation angle of the holding member is the predetermined accommodation angle in a close state in which the multiple identification sections are partially covered by a shielding member. When the determination section cannot recognize the first identification section in the close state, the determination section attempts to recognize a second identification section.