It is an object of the present invention to provide a production system and a control method for the production system that can suppress erroneous mounting when a tape feeder is shared and used even when latest tape feeder information is not shared among multiple production lines in a production system having multiple production lines. Information that matches the tape feeder database stored by the line management device is stored in the tape feeder. When the tape feeder is mounted on the mounting machine, the information stored in the tape feeder is read, and when it is determined that the information does not match the tape feeder database, mounting of the electronic component supplied from the tape feeder is stopped.

The unloading operation of winding the carrier tape on the component supply reel by driving the component supply reel to extract the component supply reel from the tape feeder is performed. That is, the carrier tape removed from the tape feeder is wound on the component supply reel. Thus, it is possible to suppress the interference of the preceding tape removed from the tape feeder with the succeeding tape.

A component supply device includes a plurality of kinds of tape feeders capable of mounting a first component storing tape by which supplying of components is performed precedingly, and a second component storing tape by which supplying of components is performed succeedingly; a component sensor configured to detect runout of the components in the first component storing tape; and a control unit configured to control a tape feeding operation. A specified discharge length by which the first component storing tape is discharged at the time of occurrence of the runout of the components is preliminarily set for each kind of the tape feeder. The control unit is configured to make the tape feeder perform a tape feeding operation for feeding the first component storing tape by the specified discharge length when the component sensor detects the runout of the components in the first component storing tape.

The feeder management device is a device that manages selection of a tape feeder to be set at each set position defined for each component in a component feeding unit of a component-mounting device. The feeder management device includes a memory unit and a feeder selection management unit. The memory unit stores list information indicating, for each component, whether or not to use a tape feeder of a special type among a plurality of tape feeders different in method of supplying the component storage tape, the tape feeder of the special type supplying the component storage tape easily. The feeder selection management unit refers to the list information stored in the memory unit, and manages selection of the tape feeder for each component, the selection corresponding to each set position in the component feeding unit of the component-mounting device.

A component supply device including a main body provided with an introducing region into which a component supply tape holding components is introduced and configured to supply the components by sending the component supply tape introduced into the main body via the introducing region in a longitudinal direction of the component supply tape. The device comprises a tape supporter insertable into the introducing region while supporting the component supply tape, and a clamping mechanism configured to sandwich and hold at least a part of a supported part of the component supply tape supported by the tape supporter with respect to the tape supporter. The component supply tape is introduced into the main body by inserting the tape supporter into the introducing region with the component supply tape held by the clamping mechanism.

A circuit board tape includes substrate units each including a sprocket-hole region, a layout region and a joining mark. There are odd and more than three sprocket holes on the sprocket-hole region. An imaginary line extended from the joining mark is extended to between a first layout and a second layout located on the layout region. The amount of the sprocket holes between the imaginary lines of the adjacent substrate units is odd. The circuit board tape is cut along the imaginary lines of the different substrate units so as to remove the defective substrate unit from the circuit board tape and divide the circuit board tape into a front tape and a rear tape. After joining the front and rear tapes, the region where a first layout on the front tape and a second layout on the rear tape are located is defined as a combined layout region.

A non-splicing feeder for which new carrier tape can be set safely is provided. The feeder includes a third sprocket rotatably provided on the insertion section of a main body, a fourth sprocket rotatably provided upstream from the third sprocket in the conveyance direction; third engaging protrusions which engage with engaging holes which are formed at a fixed angle on the outer circumference of a first sprocket, and fourth engaging protrusions which engage with engaging holes which are formed at only a portion of the outer circumference of the fourth sprocket.

A feeder provided with multiple types of tape peeling units, which are based on the type of carrier tape to be fed by the feeder, that are detachably attached to a tip section of the feeder; a cutter member, which is provided on the multiple types of tape peeling units, that peels one edge of cover tape of the carrier tape to reveal a component stored in a storage section; an identification mark provided on the multiple types of tape peeling units; an identification sensor, which is provided on main body of the feeder, that identifies the identification mark; and a comparing device that compares information recognized by the identification sensor and information of the component stored in the carrier tape.

A second tape conveying mechanism 20B includes a sprocket 21B allowed to rotate freely only in a first rotating direction corresponding to a tape conveying direction, and a first urging member 30 which urges and causes a carrier tape 14 to engage the sprocket 21B. When a preceding tape 14(1) engages the sprocket 21B and a subsequent tape 14(2) is inserted, the second tape conveying mechanism 20B abuts against a leading end of the subsequent tape 14(2) to prohibit entry of the subsequent tape 14(2). After the preceding tape 14(2) passes a tape stopper 35a, a position of the second tape conveying mechanism 20B is changed from a tape entry prohibition position to a tape entry permission position.

A component verification method includes a component ID reading process of reading a component ID corresponding to a stored component of a subsequent tape, a tape insertion detecting process of detecting that the subsequent tape has been inserted into a tape feeder, a feeder specifying process of specifying a tape feeder in which the insertion of the subsequent tape has been detected, and a component verifying process of verifying whether or not a correspondence relationship between the read component ID and the specified tape feeder is correct.