There is provided a component supply device for supplying a component to a component mounter, including: a transporter that transports a carrier tape in which the component is stored and of which an upper surface is sealed with a cover tape, along a transport path; a peeler that peels off the cover tape from the carrier tape via an opening portion disposed above the transport path; and a cover that makes an open state of the opening portion variable. The cover sets the open state of the opening portion to be any of a first open state allowing the peeler to capture the cover tape and a second open state where an opening size of the opening portion is smaller than that of the first open state and passage of the cover tape peeled off from the carrier tape is not impeded.

A receiver assembly can be coupled to a spindle to receive self-piercing rivets carried by a tape along a tape path below a punch. A reverse locking pawl can be designed to permit movement of the tape relative to the reverse locking pawl along the tape path in a forward direction and to engage a positioning aperture of the tape to stop movement of the tape in the reverse direction when a lead rivet is aligned with the punch. A method can include moving the tape forward along the tape path until a lead rivet of the tape is at a position along the tape path that is beyond an alignment position with the punch, and moving the tape in reverse to engage the corresponding positioning aperture.

A splicing device includes a first detection section which detects whether or not the component storage section protrudes downward from the conveyance reference surface; a second detection section which detects the component storage section of the paper tape; a discrimination section which determines whether a tape inserted into the splicing device is the embossed tape or the paper tape based on a detection signal of the first detection section; a first calculating section which calculates a pitch of the component storage section of the embossed tape by using the first detection section in a case where the embossed tape is determined; and a second calculating section which calculates a pitch of the component storage section of the paper tape by using the second detection section in a case where the paper tape is determined.

A splicing device includes a first detection section which detects whether or not the component storage section protrudes downward from the conveyance reference surface; a second detection section which detects the component storage section of the paper tape; a discrimination section which determines whether a tape inserted into the splicing device is the embossed tape or the paper tape based on a detection signal of the first detection section; a first calculating section which calculates a pitch of the component storage section of the embossed tape by using the first detection section in a case where the embossed tape is determined; and a second calculating section which calculates a pitch of the component storage section of the paper tape by using the second detection section in a case where the paper tape is determined.

According to a tape feeder of the present disclosure, a tape pressing member pressing a part which engages with an outer peripheral tooth of a sprocket in a carrier tape from above is connected to a main body by a connection mechanism. The connection mechanism is configured to move the entirety of the tape pressing member in a manner parallel to the main body in a case where a portion of the tape pressing member moves in a vertical direction with respect to the main body.

According to a tape feeder of the present disclosure, a tape pressing member pressing a part which engages with an outer peripheral tooth of a sprocket in a carrier tape from above is connected to a main body by a connection mechanism. The connection mechanism is configured to move the entirety of the tape pressing member in a manner parallel to the main body in a case where a portion of the tape pressing member moves in a vertical direction with respect to the main body.

The problem of providing an apparatus for conveying a molded body for heat exchanger fins that is capable of realizing high speed conveying of the molded body for heat exchanger fins, preventing the generation of noise during conveying, and miniaturization is provided. An apparatus conveys a metal strip in a predetermined direction after tube insertion portions are formed in a thin metal plate, and has a plurality of conveying units disposed along a conveying direction of the molded body for heat exchanger fins, each conveying unit including: a rotating conveyor that has a plurality of tapered protrusions that are capable of advancing into the tube insertion portions and a rotating shaft in a direction that is perpendicular to a conveying direction of the metal strip on a horizontal plane; and a rotating conveyor driving unit that rotationally drives the rotating conveyor. An operation control unit that controls the plurality of rotating conveyor driving units so as to synchronize respective rotational speeds of the plurality of conveying units is also provided.

The problem of providing an apparatus for conveying a molded body for heat exchanger fins that is capable of realizing high speed conveying of the molded body for heat exchanger fins, preventing the generation of noise during conveying, and miniaturization is provided. An apparatus conveys a metal strip in a predetermined direction after tube insertion portions are formed in a thin metal plate, and has a plurality of conveying units disposed along a conveying direction of the molded body for heat exchanger fins, each conveying unit including: a rotating conveyor that has a plurality of tapered protrusions that are capable of advancing into the tube insertion portions and a rotating shaft in a direction that is perpendicular to a conveying direction of the metal strip on a horizontal plane; and a rotating conveyor driving unit that rotationally drives the rotating conveyor. An operation control unit that controls the plurality of rotating conveyor driving units so as to synchronize respective rotational speeds of the plurality of conveying units is also provided.

A method includes using a feed system to feed a tubing holder toward a cutting system. A plurality of sections of tubing are coupled at intervals along a first spine of the tubing holder, each of the plurality of sections of tubing extending away from the first spine in a direction that is transverse to a feed direction of the feed system. The method also includes using the cutting system to cut a first section of tubing of the plurality of sections of tubing. The cutting system cuts the first section of tubing at a plurality of locations to separate a plurality of subsections of the first section of tubing.

According to the present disclosure, a tape feeder includes a main body that is attached to a component mounter and has a tape traveling path which is a traveling path of a carrier tape; and a sprocket that is provided in the main body, causes an outer peripheral tooth to engage with a feed hole of the carrier tape, and rotates so as to perform pitch feeding of the carrier tape on the tape traveling path. The tape feeder includes a lock mechanism that has a press operation unit operated with pressing force, locks the sprocket in the main body in a state where the press operation unit is not operated, and unlocks the sprocket in a state where the press operation unit is operated.