A tape-and-reel system for processing components is disclosed. In the embodiment, the tape-and-reel system includes a first carrier tape reel for holding unloaded carrier tape, a component loading system for loading components into pockets of the unloaded carrier tape, an air-guided cover tape feeder through which cover tape travels, an alignment tool for guiding the cover tape into alignment with the loaded carrier tape and adhering the cover tape to the loaded carrier tape to secure the components into the loaded carrier tape, and a second carrier tape reel for holding the loaded carrier tape.

A method of making a component includes applying a clamping force to the component, the component coupled to a carrier strip of a panel via a polymeric tab and separating a portion of the polymeric tab from a substrate of the component, thereby causing the component to be detached from the panel.

A method of making a component includes applying a clamping force to the component, the component coupled to a carrier strip of a panel via a polymeric tab and separating a portion of the polymeric tab from a substrate of the component, thereby causing the component to be detached from the panel.

In an embodiment, a carrier tape 10 for storing electronic components includes a band-shaped tape body 11 and storage recesses 12a, each having length L1, width W1, and depth D1 sufficient to store an electronic component EC, which storage recesses are provided in the tape body 11 at equal intervals in the length direction. On one width-direction side of the storage recesses 12a in the tape body 11, guide recesses 12b are provided in such a way that their depth D2 increases from the top face of the tape body 11 toward the one width-direction side face of the storage recess 12b, and that the guide recesses 12b themselves continue to the storage recesses 12a. The carrier tape is suited for the method of inserting electronic components into the storage recesses in the carrier tape from the side.

In an embodiment, a carrier tape 10 for storing electronic components includes a band-shaped tape body 11 and storage recesses 12a, each having length L1, width W1, and depth D1 sufficient to store an electronic component EC, which storage recesses are provided in the tape body 11 at equal intervals in the length direction. On one width-direction side of the storage recesses 12a in the tape body 11, guide recesses 12b are provided in such a way that their depth D2 increases from the top face of the tape body 11 toward the one width-direction side face of the storage recess 12b, and that the guide recesses 12b themselves continue to the storage recesses 12a. The carrier tape is suited for the method of inserting electronic components into the storage recesses in the carrier tape from the side.

A component mounting system including: a component mounting device group in which a plurality of component mounting devices that mount components supplied to a board transported in from an upstream side by a tape feeder and transport out the board to a downstream side, and cut a carrier tape after supplying the components by a cutter device and discharge scraps of carrier tape, are installed on a floor surface while being arranged in a direction of conveying the board; a main conveyor that is installed along an arrangement direction of the plurality of component mounting devices in a region on the floor surface under the component mounting device group, and transports the scraps of carrier tape discharged from each of the plurality of component mounting devices; and a scraps storage that is installed outside the region and stores the scraps of carrier tape transported by the main conveyor.

A component mounting system including: a component mounting device group in which a plurality of component mounting devices that mount components supplied to a board transported in from an upstream side by a tape feeder and transport out the board to a downstream side, and cut a carrier tape after supplying the components by a cutter device and discharge scraps of carrier tape, are installed on a floor surface while being arranged in a direction of conveying the board; a main conveyor that is installed along an arrangement direction of the plurality of component mounting devices in a region on the floor surface under the component mounting device group, and transports the scraps of carrier tape discharged from each of the plurality of component mounting devices; and a scraps storage that is installed outside the region and stores the scraps of carrier tape transported by the main conveyor.

A tape for holding an information card (5) holding a blister (1) having a cavity for holding an item, where a hole (7) in the information card allows affixing of the blister such that the cavity of the blister remains accessible for instance by inserting the cavity of the blister in the hole so it protrudes through the information card. By affixing the information cards in a repetitive pattern along the tape (20) the assembled tape can be folded and individual blisters are no longer lost. An edge (6) for severing the tape allows the removal of a single information card-blister assembly from the assembled tape. Separating the information cards on the tape allows room for folding the tape. Ensuring that the holes cut in the tape do not overlap allows the distance between the information cards along the tape to be reduced and result in an efficient stacking of the blisters when the tape is folded.

A tape for holding an information card (5) holding a blister (1) having a cavity for holding an item, where a hole (7) in the information card allows affixing of the blister such that the cavity of the blister remains accessible for instance by inserting the cavity of the blister in the hole so it protrudes through the information card. By affixing the information cards in a repetitive pattern along the tape (20) the assembled tape can be folded and individual blisters are no longer lost. An edge (6) for severing the tape allows the removal of a single information card-blister assembly from the assembled tape. Separating the information cards on the tape allows room for folding the tape. Ensuring that the holes cut in the tape do not overlap allows the distance between the information cards along the tape to be reduced and result in an efficient stacking of the blisters when the tape is folded.

A method for manufacturing a carrier tape housing electronic components with seal materials includes preparing a tape-shaped main body including housing holes penetrating from one surface to other surface along a longitudinal direction, preparing a tape-shaped seal material including an adhesive layer on the one surface and including pairs of terminal electrodes on the adhesive layer, affixing the adhesive layer to the other surface such that respective portions of the paired terminal electrodes are located within each of the housing holes in a planar view, forming cuts in the tape-shaped seal material to separate portions defining and functioning as the seal materials including portions overlapping with the respective housing holes in a planar view from the other portions, and providing an electronic component into each housing hole and connecting the respective portions of the paired terminal electrodes located within each of the housing holes to the electronic component.