A component supply device of the disclosure includes: a loader being capable of accommodating a plurality of stick cases in a stacked state, each of the plurality of stick cases being capable of accommodating a plurality of electronic components, each of the plurality of stick cases having an opening in an end portion in a longitudinal direction; a component transporting path transporting one or more electronic components supplied from the plurality of stick cases to a predetermined component supply position; and a component information storage being capable of storing component information of stick cases. A plurality of electronic components of same lot are accommodated in the plurality of stick cases, and the component information storage stores component information of a stick case read from one of the plurality of stick cases, as the component information of each of the plurality of stick cases.

A system for tracking objects such as a printed circuit board (PCB) undergoing multiple manufacturing processes traceability system includes a coding unit, a scanning unit, and a reading unit and a database. The printed circuit board includes at least two inner copper foil substrates, subsequent substrates can be added. The coding unit marks identification and manufacturing stage codes on the inner copper foil substrate for through scanning by the scanning unit emitting X-rays. The reading unit can receive and parse the codes identified by the X-rays, and determine the previous or a next stage according to a predetermined encoding rule without risk of stage repetition or stage omission or product misplacement. The database stores standard identities and information as to manufacturing stages as a reference.

A component supply device of the disclosure includes: a loader being capable of accommodating a plurality of stick cases in a stacked state, each of the plurality of stick cases being capable of accommodating a plurality of electronic components, each of the plurality of stick cases having an opening in an end portion in a longitudinal direction; a component transporter moving one or more electronic components supplied from the plurality of stick cases to a predetermined component supply position; and a stick case detector detecting presence or absence of one or more stick cases in the loader.

A tape erroneous mounting detection system includes sensors provided to the plurality of tape feeders, a reader configured to read identification information from a recording part which is provided to a reel, and a memory part configured to store part verification information. The tape erroneous mounting detection system also includes a part verification part configured to determine whether or not the tape is mounted on the tape feeder at the set position, and to perform verification updating processing, and a tape erroneous mounting detection part configured to perform erroneous mounting detection processing where the tape erroneous mounting detection part identifies the tape feeder on which the tape is mounted based on the tape presence or absence information and the output from the sensor, and the tape erroneous mounting detection part detects that the tape mounted on the tape feeder is erroneously mounted.

An apparatus for manufacturing a display apparatus includes a controller configured to control a second stage, wherein the controller includes an image processor configured to calculate position information of a first material and a second material and alignment information of a bonded material based on image information sensed by a camera unit, an operator configured to calculate final bonding position based on the position information of the first material and the second material calculated by the image processor, a controller unit configured to move the second stage to the final bonding position calculated by the operator, and a deep learning unit configured to update the operator through deep learning based on the alignment information of the bonded material calculated by the image processor.

A setup support device that improves the efficiency of setup of a component mounter by guiding supplying of feeders to a component supply device as preparation for setting of the feeders. The support setup device includes: a preparation cart on which are loaded multiple of the feeders used to perform multiple production jobs; and a feeder identifying section configured to identify multiple of the feeders to be set on a component supply device among the multiple feeders loaded on the preparation cart. The preparation cart includes a guidance section configured to issue guidance all at once for the identified multiple feeders to an operator performing the setup so as to supply the identified multiple feeders to the component supply device as preparation for setting the identified multiple feeders on the component supply device.

A production management device includes data management section having multiple correspondence data in which component types are linked to each product type of board product with reference codes, and process setting section for selecting, when circuit board is carried into component mounting machine in a family production, a product type for each of multiple unit boards based on identification information and sets the type of mounting process to be executed for each of multiple unit boards by selecting correspondence data for the selected product type.

A reading device including an identification information reading device which reads the identification information, a holding device which holds an identification information application member, a moving device which moves the holding device relative to the identification information reading device, and a control device which controls operations of the identification information reading device, the holding device, and the moving device. The control device causes the holding device to move using the moving device such that at least a portion of the holding region in which the holding device holds the identification information application member is a reading region to move the identification information application member and is configured to perform a first reading process which carries out a reading process of the identification information using the identification information in a state in which holding of the identification information application member using the holding device is released.

Component mounters of a component mounting line identify a board ID of a circuit board conveyed during production and send the board ID to a production management computer, measure actual data for early-stage-discovery of a mounting defect at a specified interval during production, and send the measurement results to the production management computer. The production management computer saves the board IDs sent from each of the component mounters with a time stamp for each component mounter, monitors whether there is a possibility of a mounting defect based on the measurement result for each component mounter, if there is a possibility of a mounting defect at one of the component mounters, extracts board IDs of circuit boards on which components were mounted at the component mounters since the previous time measurement was performed, and displays a list of the circuit boards with a possible mounting defect.

A component supply device includes a transport path that guides a component connected body from a component insertion port on an upstream side in a component feeding direction to a component supply position on a downstream side, the component connected body including a plurality of axial components arranged and connected at a predetermined pitch, the plurality of axial components each having a lead, and a feed mechanism that pitch-feeds the component connected body along the transport path to the downstream side. The feed mechanism includes a feed member which has a plurality of feed hooks disposed at the predetermined pitch along the component feeding direction, a rotating shaft which is connected to one end side of the feed member, and a moving mechanism which is connected to the feed member through the rotating shaft and reciprocates the rotating shaft along the component feeding direction. A length of one feed hook among the plurality of feed hooks is longer than a length of an other feed hook among the plurality of feed hooks, the other feed hook being adjacent to the one feed hook on the rotating shaft side.