A component supply device provided with a rail which transports a carrier tape, and a movable member which is provided above the rail and moves up and down, in which a gap above the carrier tape which passes a bottom portion of the movable member is blocked by the movable member.

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.

An apparatus and method for manufacturing an organic light emitting diode (OLED) for lighting are disclosed. The manufacturing apparatus includes a plurality of rolling members configured to move, in a transverse direction, a band-shaped base having holes formed at predetermined intervals at both width-direction ends thereof, and arranged at predetermined intervals along a movement direction of the base, and a deposition unit configured to discharge a vaporization material from a deposition source and sequentially depositing the discharged vaporization material on one surface of the base, along with the movement of the base. A plurality of protrusion members are formed on one surface of each of the rolling members, to move the base by being inserted in and released from the holes at both ends of the base along with rotation of the tolling members.

An automatic splicing device (20) provided with a communication device (40) configured to communicate with a component mounter (M) or a host computer (HC) that is connected to the component mounter (M) such that communication is possible, a connection control device (100 [103]) configured to control connecting of the a first tape (Tc) and a second tape (Tc), and a display device (90) configured to display information related to connecting of the first tape (Tc) and the second tape (Tc).

A non-splicing feeder provided with multiple sprockets in the conveyance direction. Provided are a second sprocket that is rotatably provided at a position adjacent to a supply position of a main body and on which is formed a second engaging protrusion, a third sprocket that is rotatably provided at a position adjacent to an insertion section of the main body and on which is formed a third engaging protrusion, and a rail, the upper surface of which forms a conveyance path of a carrier tape, which is provided above the second sprocket and third sprocket, wherein space is formed above the rail between the second sprocket and third sprocket, and in a case in which engaging protrusions of both the third sprocket and second sprocket have engaged with engaging holes of a carrier tape, the carrier tape is slackened such that the carrier tape separates from the rail into space.

A non-splicing feeder provided with multiple sprockets in the conveyance direction. Provided are a second sprocket that is rotatably provided at a position adjacent to a supply position of a main body and on which is formed a second engaging protrusion, a third sprocket that is rotatably provided at a position adjacent to an insertion section of the main body and on which is formed a third engaging protrusion, and a rail, the upper surface of which forms a conveyance path of a carrier tape, which is provided above the second sprocket and third sprocket, wherein space is formed above the rail between the second sprocket and third sprocket, and in a case in which engaging protrusions of both the third sprocket and second sprocket have engaged with engaging holes of a carrier tape, the carrier tape is slackened such that the carrier tape separates from the rail into space.

A groove for allowing passing of a component storage section during conveyance of a carrier tape having the component storage section protruding is formed in a tape conveyance path of a feeder. The groove is provided with a tape lower face biasing member which is pressed by the lower face of the carrier tape and is deformed downward when the carrier tape has the component storage section protruding until the carrier tape inserted from a tape insertion section reaches a rear side sprocket, and biases the lower face of the carrier tape when the carrier tape has the component storage section not protruding.

A tape feeder including: an angle sensor configured to detect a final angle of the sprocket at a point in time at which interruption of power supply to the tape feeder is detected, and a current angle of the sprocket at a point in time at which resumption of power supply to the tape feeder is detected; and a control device configured to, when resumption of power supply to the tape feeder is detected, set a target angle of the sprocket based on the final angle, and perform control to rotate the sprocket from the current angle to the target angle so as to convey the carrier tape to a predetermined position.

A tape feeder including: an angle sensor configured to detect a final angle of the sprocket at a point in time at which interruption of power supply to the tape feeder is detected, and a current angle of the sprocket at a point in time at which resumption of power supply to the tape feeder is detected; and a control device configured to, when resumption of power supply to the tape feeder is detected, set a target angle of the sprocket based on the final angle, and perform control to rotate the sprocket from the current angle to the target angle so as to convey the carrier tape to a predetermined position.

A plurality of marks (11) equidistantly provided on both side edge parts (1a) of a long medium (1), a plurality of first indicator holes (12) equidistantly given on at least one of the side edge parts (1a), and a plurality of second indicator holes (13) given on at least one of the side edge parts (1a) on a straight line different from a row of the first indicator holes (12) at spacings shorter than spacings of the first indicator holes (12) are provided, and the second indicator holes (13) are each provided to a side of a trailing-end mark (11b), and each gradually comes closer to a leading-end mark (11a) as the long medium (1) runs toward a trailing end.