A work system includes a mounting system which mounts a component on a board and an unmanned conveyance system having an unmanned conveyance vehicle. The unmanned conveyance system includes a first notifier which notifies the mounting system of an arrival notification indicating that the unmanned conveyance vehicle arrives at a position where separating the feeder carriage from the base starts, and a first processor which causes the unmanned conveyance vehicle to travel in a direction away from the base upon receiving, from the mounting system, a release notification indicating that a connection of the feeder carriage is released. The mounting system includes a second processor which causes the connection mechanism to release the connection of the feeder carriage upon receiving the arrival notification, and a second notifier which notifies the unmanned conveyance system of the release notification upon being informed of completion of the release operation.

A carrier for reversibly immobilizing one or more objects is disclosed. The carrier comprises a frame having a major axis, a top surface, a bottom surface, and one or more openings through the frame along the major axis. The carrier also comprises a film comprising a thermoplastic elastomer material and having a top surface and a bottom surface. The film is attached to the frame based on thermal bonding of the top surface of the film to the bottom surface of the frame, is under tension along the major axis, and is free to flex at the openings. The top surface of the film comprises one or more exposed top surface portions that are accessible through the openings. The exposed top surface portions exhibit a holding force on stainless steel as per ASTM D1000 that is greater than that of the bottom surface of the film.

A tray-type component supply device includes an exchanging table configured to lift and lowered between an upper position and a lower position, a conveyance section configured to receive a tray from the exchanging table and convey the tray, and a control section configured to receive a detection signal from the detection sensor and cause the driving section to operate the exchanging table, the control section including an abnormality detecting section configured to detect an abnormal state in which a height position of the exchanging table becomes unidentified, a retraction operating section configured to cause the exchanging table to move to the retraction position at a low speed when the abnormal state is detected, and a calibration and restoration section configured to calibrate the height position of the exchanging table to restore a normal state.

A loose component supply device including component support member 150 configured to support components in a scattered state; and component supply apparatus 88 configured to store components and discharge components towards the component support member from discharge opening 98, wherein, in the component supply apparatus, conveyor belt 112 is arranged between storage section 100 that stores components and a discharge opening so as to extend diagonally upwards from the storage section on the side on which the discharge section is provided. Components housed in the housing section are discharged from the discharge opening towards the component support member by being conveyed by the conveyor belt. The component supply apparatus is removably mounted on the mounting section. Thus, because components are not discharged from the discharge opening unless the conveyor is operated, components do not fall from the discharge opening when the component supply apparatus is mounted on or removed from the mounting section.

A component supply device including a stage on which electronic components are scattered; a contacting section at a height so as to contact the electronic components on the stage; a slide device to relatively slide the stage and the contacting section; a dropping opening to allow the electronic components scattered on the stage caught by the contacting section to drop in accordance with the relative movement of the stage and the contacting section by the slide device; and a wall at a side opposite to a side of the dropping opening at which the electronic components scattered on the stage drop. The contacting section is provided to extend in a direction perpendicular to a sliding direction by the slide device, and at least a portion of the contacting section is inclined with respect to a straight direction along the sliding direction and an upper surface of the stage.

An aerosol-generating system may include a liquid storage portion, a vaporizer, and a pump. The liquid storage portion may be configured to store a liquid aerosol-forming substrate. The vaporizer may be configured to volatilize the liquid aerosol-forming substrate. The pump may be configured to pump air into the liquid storage portion so as to push out a volume of the liquid aerosol-forming substrate from the liquid storage portion and to supply the volume of the liquid aerosol-forming substrate to the vaporizer. A method for generating an aerosol may be performed with the system.

A container, or box, for use in a Surface Mount Technology (SMT) system includes an outer shell and at least one compartment. The outer shell has side walls and a base. The container is configured to store a plurality of SMT-job related objects in said at least one compartment where one of said SMT-job related objects is not a component tape reel, wherein said container has a logically and electronically unique identity in the SMT system represented by a barcode or RFID tag arranged on the container, said unique ID of the container being configured to be associated with each of the unique IDs of said plurality of SMT-job related objects stored in said at least one compartment.

The current disclosure describes carrier tape systems that include a carrier tape substrate and a cover tape. The carrier tape system includes a plurality of repetitive adhesion areas where the carrier tape substrate and cover tape are attached to each other and non-adhesion areas where the carrier tape substrate and cover tape are not attached to each other. Separating the cover tape and the carrier tape substrate at these repetitive adhesion and non-adhesion areas imparts a vibration to the cover tape which impedes or prevents semiconductor devices carried in pockets of the carrier tape substrate from adhering to adhesive on the cover tape.

The current disclosure describes carrier tape systems that include a carrier tape substrate and a cover tape. The carrier tape system includes a plurality of repetitive adhesion areas where the carrier tape substrate and cover tape are attached to each other and non-adhesion areas where the carrier tape substrate and cover tape are not attached to each other. Separating the cover tape and the carrier tape substrate at these repetitive adhesion and non-adhesion areas imparts a vibration to the cover tape which impedes or prevents semiconductor devices carried in pockets of the carrier tape substrate from adhering to adhesive on the cover tape.

A system and method for surface mount assembly of PCB's, using an automated pick-and-place machine into which component tapes on reels are fed, uses component tape reels each of which has been pre-threaded into its appropriate tape guide and been stored as a reel/tape guide packet in an automated SMD storage tower, from which appropriate packets are retrieved for coupling to the pick-and-place machine.