A tape feeder includes a magnet that rotates as one with a sprocket driven by a motor, two magnetic field detecting elements that detect signals in accordance with a magnetic field from the magnet and that are arranged at positions opposite the rotation region of the magnet, and a rotation angle detecting circuit that detects the rotation angle of the magnet and the rotation angle of the sprocket by processing output signals of the magnetic field detecting elements. A control section of the tape feeder reads the detection information of the rotation angle detecting circuit from immediately after the motor is started, recognizes the rotation angle of the sprocket, detects the position of tooth of the sprocket of the tooth engaged with a feeding hole of component supply tape based on the recognition results of the rotation angle of the sprocket for each pitch feeding operation of the sprocket, and corrects the pitch feeding amount of the motor by a pitch error correcting amount set for the tooth.

A component supplying device includes a body portion including a component pick-up position, a tape path, first and second transfer portions, a control portion, and an input portion. The control portion includes a discharge processing portion which executes a discharge process in response to an instruction at the input, and a transfer processing portion which executes a transfer process after the discharge process. In the discharge process, a first component supply tape is transferred by the first transfer portion away from the first transfer position so that at least a part of the first component supply tape is discharged outside the body portion while holding the components. In the transfer process, a second component supply tape that is at the second transfer position is transferred by the second transfer portion toward the first transfer position, and transferred by the first transfer portion toward the component pick-up position.

A component supplying device includes a body portion including a component pick-up position, a tape path, first and second transfer portions, a control portion, and an input portion. The control portion includes a discharge processing portion which executes a discharge process in response to an instruction at the input, and a transfer processing portion which executes a transfer process after the discharge process. In the discharge process, a first component supply tape is transferred by the first transfer portion away from the first transfer position so that at least a part of the first component supply tape is discharged outside the body portion while holding the components. In the transfer process, a second component supply tape that is at the second transfer position is transferred by the second transfer portion toward the first transfer position, and transferred by the first transfer portion toward the component pick-up position.

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 feeder is provided with a pushing member that pushes the carrier tape against a rail, an engaging member engageable with indexing holes of the carrier tape, and an interlocking mechanism that moves an engaging member upwards by interlocking with the upwards movement of the pushing member. The engaging member engages with indexing holes of the carrier to restrict the movement of the carrier tape to the insertion section side. The interlocking mechanism separates the engaging member from the indexing holes of the carrier tape by interlocking upwards movement of the engaging member with upwards movement of the pushing member, allowing movement of the carrier tape in the conveyance direction.

A feeder is provided with a pushing member that pushes the carrier tape against a rail, an engaging member engageable with indexing holes of the carrier tape, and an interlocking mechanism that moves an engaging member upwards by interlocking with the upwards movement of the pushing member. The engaging member engages with indexing holes of the carrier to restrict the movement of the carrier tape to the insertion section side. The interlocking mechanism separates the engaging member from the indexing holes of the carrier tape by interlocking upwards movement of the engaging member with upwards movement of the pushing member, allowing movement of the carrier tape in the conveyance direction.

An apparatus is disclosed for applying tags with attached elastic anchor bands onto the tops of objects such as bottles in a high speed packaging application. The apparatus includes an infeed assembly for feeding a web, a conveyor assembly that receives a web and conveys it along a path in an upstream direction, a rotating selector wheel, a placement assembly, a pair of rotating jaw assembles, a vacuum cup of the selector wheel, and stretched elastic bands over the tops of respective bottles being conveyed along a path below the placing assembly. The elastic bands then snap onto the tops of their respective bottles to secure the tags to the bottles.

An apparatus is disclosed for applying tags with attached elastic anchor bands onto the tops of objects such as bottles in a high speed packaging application. The apparatus includes an infeed assembly for feeding a web, a conveyor assembly that receives a web and conveys it along a path in an upstream direction, a rotating selector wheel, a placement assembly, a pair of rotating jaw assembles, a vacuum cup of the selector wheel, and stretched elastic bands over the tops of respective bottles being conveyed along a path below the placing assembly. The elastic bands then snap onto the tops of their respective bottles to secure the tags to the bottles.

An apparatus is disclosed for applying tags with attached elastic anchor bands onto the tops of objects such as bottles in a high speed packaging application. The apparatus includes an infeed assembly for feeding a web, a conveyor assembly that receives a web and conveys it along a path in an upstream direction, a rotating selector wheel, a placement assembly, a pair of rotating jaw assembles, a vacuum cup of the selector wheel, and stretched elastic bands over the tops of respective bottles being conveyed along a path below the placing assembly. The elastic bands then snap onto the tops of their respective bottles to secure the tags to the bottles.