There is provided a component mounter including: a storage which stores information related to a tape feeder and information related to a carrier tape pitch-fed by the tape feeder; a detector which detects a state where the carrier tape becomes close to a component shortage; a determiner which determines whether to perform predetermined processing with respect to a termination portion of the carrier tape based on information related to the tape feeder and information related to the carrier tape which are stored in the storage, in a case where a state where the carrier tape is close to a component shortage is detected by the detector; and a notifier which notifies an operator of contents of the predetermined processing, in a case where the determiner determines that the predetermined processing is supposed to be performed with respect to the termination portion of the carrier tape.

A tape auto-loading device for loading a carrier tape including a cover tape gripping device configured to grip a distal end of the cover tape which is peeled off from the base tape, a linking device configured to link the temporary tape held by the temporary tape laying device to a distal end portion of the cover tape gripped by the cover tape gripping device, and a transfer device configured to transfer the temporary tape linked to the distal end portion of the cover tape from the temporary tape laying device to the tape feeder. The linking device includes a tape support member and a heating member each having respective shapes for pinching the predetermined portion in such a state of the predetermined portion being bent at a halfway position along a length in a tape's longitudinal direction.

A component supply device is a feeder which uses a supply tape to supply an electronic component, and includes a main carrier route for carrying the supply tape to a component suction position, a first carrier route for carrying the supply tape from a tape insertion position to a rear end part of the main carrier route, a second carrier route provided so as to be aligned below the first carrier route, a second sprocket which carries the supply tape to the component suction position, a third sprocket which carries the supply tape from the tape insertion position to the second sprocket, and a route switching device provided to a loading unit which automatically changes a carrier route of the supply tape from the first carrier route to the second carrier route when the supply tape is carried to the component suction position.

A tape auto-loading device for loading a carrier tape including a cover tape gripping device configured to grip a distal end of the cover tape which is peeled off from the base tape, a linking device configured to link the temporary tape held by the temporary tape laying device to a distal end portion of the cover tape gripped by the cover tape gripping device, and a transfer device configured to transfer the temporary tape linked to the distal end portion of the cover tape from the temporary tape laying device to the tape feeder. The linking device includes a tape support member and a heating member each having respective shapes for pinching the predetermined portion in such a state of the predetermined portion being bent at a halfway position along a length in a tape's longitudinal direction.

A component mounting machine includes: a feeder device; a component transfer device; a splice portion detecting section detecting a splice portion further on a near side than a supply position of the feeder device; a passing determination section determining if the splice portion is in the passing state in which the splice portion is positioned within a passing area; a suction abnormality determination section determining the suction abnormality state in which a suction nozzle is not able to suck a component; a work defect determination section determining the splicing work defect when the suction abnormality state is determined and the splice portion is determined to be in the passing state; and an abnormality display section that performs dedicated abnormality display when the splicing work defect is determined.

A method for optimizing component type allocation in which multiple component types of components are optimally allocated to an automatic feeder device which automatically loads the component storage tape and a manual feeder device which does not automatically load when the automatic feeder device and the manual feeder device are installed installation positions on a common pallet, the method including: a workability evaluating step of evaluating a magnitude of labor in a splicing work for replenishing and connecting a new component storage tape in the manual feeder device for each of component types; and an automatic side allocating step of preferentially allocating component type having large labor in the splicing work to the automatic feeder device. Accordingly, the splicing work can be reduced by effectively using the automatic feeder device, and it can contribute to the improvement of the production efficiency of the board.

A component supply management system includes a threshold setting portion, a remaining-amount detection portion, a determination portion, and a notification portion. The threshold setting portion sets a threshold with respect to a remaining amount capable of being supplied by the carrier tape, for each of the tape feeders, depending on types of the tape feeders. The remaining-amount detection portion detects a remaining amount of components capable of being supplied by the carrier tape, for each of the tape feeders. The determination portion determines whether the remaining amount detected by the remaining-amount detection portion is lower than the threshold set in the threshold setting portion, for each of the tape feeders. The notification portion issues a warning for recommending replenishment of a carrier tape for the tape feeder in which the determination portion determines that the remaining amount is lower than the threshold.

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.

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 mounting device described herein includes a tape driving section (a driving shaft motor, a front-side sprocket, a timing belt) feeding forward component tapes including components, a tape guide section guiding downward an empty tape that has no component as a result of suctioning with a suction nozzle, a tape cutting section disposed below the tape guide section and cutting the empty tape according to determination that the component tape has no component, and a tape discharge section disposed below the tape cutting section and discharging downward a cut part of the empty tape.