A tape feeder includes a path through which a taped lead component, in which a lead component is taped, is fed-out to a supply position, a sensor disposed in the path to detect the taped lead component, and a notification device configured to notify of detection of the taped lead component when the taped lead component is detected by the sensor.

There is provided technology which is a component mounting machine which mounts electronic components onto a circuit substrate and is capable of displaying a movable region of an inner portion of the component mounting machine within a same image. The component mounting machine is provided with a fixed camera which monitors the inner portion of the component mounting machine and a display section which is capable of displaying a captured image of the fixed camera. The fixed camera is capable of imaging a range from a pickup position at which the suction nozzle picks up the electronic component which is supplied from the component feeder to a mounting position at which the electronic component is mounted onto the circuit substrate within the same image.

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.

Based on the measured values of the electrical characteristics of multiple components including a component positioned in the middle among many components held on the component tape, it is possible to more accurately estimate the electrical characteristics of the many components as compared with the case based on the measured value of the electrical characteristic of a component positioned at the leading end. Also, based on the statistically processed results of these measurement values, it is possible to appropriately evaluate the electrical characteristics of many components. Further, if the electrical characteristics of all of the components are measured, the evaluation can be performed more appropriately.

A second tape feeding mechanism 20B is permitted to idly rotate only in a first rotating direction and has a biasing mechanism 25 which biases a carrier tape 14 against a sprocket 21B so that the carrier tape 14 is brought into engagement with the sprocket 21B. With a preceding tape 14(1) kept in engagement with the sprocket 21B, a leading end portion of a following tape 14 (2) is inserted between the sprocket 21B and the preceding tape 14 (1), and the preceding tape 14 (1) is biased by the biasing means 25 so that the following tape 14(2) is brought into engagement with the sprocket 21B.

A system includes feeder storage that stores feeders to be replenished to multiple component mounters and feeders removed from each component mounter, automatic exchanging device to replenish a feeder taken from the feeder storage to each component mounter and collect a feeder removed from each component mounter to the feeder storage, and feeder management section that manages whether each feeder stored in the feeder storage is a feeder to be replenished or a feeder to be collected. State display section, being provided with each feeder on an end face part on a removal direction side or an upper end face part, is configured to display a state of the feeder, and the feeder management section displays whether each feeder stored in the feeder storage is the feeder to be replenished or the feeder to be collected, on the state display section of each feeder.

In a tape feeder which serves as a component supply device which is used for supplying components in a component mounter, a first unit which serves as a tape feed unit which pitch feeds a carrier tape which holds components to a component suction position using a pitch feeding sprocket drive mechanism, and a third unit and a second unit which serve as a tape supply unit which is attachable and detachable in relation to the tape feed unit and which supplies the carrier tape to the tape feed unit are selectively used according to the supply mode of the carrier tape to be used.

A component supplying apparatus includes a main tape entering port, a component supply port through which components are picked up from a carrier tape, a main tape path extending in a body part from the main tape entering port to the underside of the component supply port, a top tape removing part removing the top tape from the carrier tape on the main tape path upstream of the component supply port, a sub tape entering port, a sub tape path meeting a slope path portion of the main tape path at a meeting point upstream of the top tape removing part, and at least one sprocket wheels engaging with the carrier tape on the main tape path downstream of the meeting point. A length of the sub tape path is shorter than a length of the main tape path from the main tape entering port to the meeting point.

An electronic component supply apparatus transports a component supply tape which has accommodation sections and sprocket holes formed at regular intervals and which accommodates electronic components in the accommodation sections and is covered with a cover tape, to a component picking-up position and supplies each of the electronic components accommodated in each of the accommodation sections to a component mounting apparatus. The electronic component supply apparatus includes an electronic component detecting unit that detects the electronic component accommodated in the accommodation section of the component supply tape which has yet to pass the cover tape processing unit on a transport path; a determination unit that determines presence or absence of an electronic component in the accommodation section based on information from the electronic component detecting unit; and a control unit that controls a component supply tape transport unit based on a determination result of the determination unit.