A medium carrying device includes a carrying part that carries a continuous print medium, a detection part that includes a light emitting part and a light receiving part arranged sandwiching a carrying path, and that detects the print medium carried on the carrying path according to a light amount that is received by the light receiving part, and a control part that controls operations of the carrying part and the detection part, wherein the control part sets a first emitted light amount of the emitted light of the light emitting part used in image formation to the print medium by performing a light amount measurement using the light emitting part and the light receiving part in a state where the print medium is carried to a first position, and sets a threshold light amount that is used in detecting a boundary position between the first region and the second region by the detection part through performing another light amount measurement by obtaining a receiving light amount of the light receiving part with the first emitted light amount and by determining the threshold light amount based on the receiving light amount in a state where the print medium is carried from the first position to another second position.

A medium carrying device includes a carrying part that carries a continuous print medium, a detection part that includes a light emitting part and a light receiving part arranged sandwiching a carrying path, and that detects the print medium carried on the carrying path according to a light amount that is received by the light receiving part, and a control part that controls operations of the carrying part and the detection part, wherein the control part sets a first emitted light amount of the emitted light of the light emitting part used in image formation to the print medium by performing a light amount measurement using the light emitting part and the light receiving part in a state where the print medium is carried to a first position, and sets a threshold light amount that is used in detecting a boundary position between the first region and the second region by the detection part through performing another light amount measurement by obtaining a receiving light amount of the light receiving part with the first emitted light amount and by determining the threshold light amount based on the receiving light amount in a state where the print medium is carried from the first position to another second position.

A system for applying a material to a substrate comprising: a feed section that comprises a feed roll and configured for advancing a material along a predetermined path; a material applicator roll configured to receive the material from the feed roll and apply a cut length of material to a substrate; a knife element located between the feed section and the material applicator roll; and a non-vacuum anvil roll positioned near the knife element, wherein the knife element and the non-vacuum anvil roll are positioned along the path of the material and engage the material to cut the material into the cut length of material for applying to the substrate, and wherein the material contacts the peripheral surface of the non-vacuum anvil roll only at a cut engagement point.

A system for applying a material to a substrate comprising: a feed section that comprises a feed roll and configured for advancing a material along a predetermined path; a material applicator roll configured to receive the material from the feed roll and apply a cut length of material to a substrate; a knife element located between the feed section and the material applicator roll; and a non-vacuum anvil roll positioned near the knife element, wherein the knife element and the non-vacuum anvil roll are positioned along the path of the material and engage the material to cut the material into the cut length of material for applying to the substrate, and wherein the material contacts the peripheral surface of the non-vacuum anvil roll only at a cut engagement point.

Methods of separating and positioning discrete articles formed from a continuous length of articles are provided. The methods may comprise the steps of receiving a first portion of the continuous length on a first head in a receiving position of an orbit about a first rotational axis and receiving a second portion of the continuous length on a second head in the receiving position of the orbit about the first rotational axis. The methods may comprise providing a laser system configured to produce and direct a laser beam, and ablating a portion of the continuous length of articles intermediate the first head and the second head with the laser beam to separate the first portion of the continuous length of articles from the second portion of the continuous length of articles, thereby forming a discrete article on the first head.

A sheet processing system including: a sheet feeding station, configured to feed and place single and separate printed sheets, one at a time, on at least one continuous sheet, one printed sheet adjacent to the other with a front edge of one printed sheet of the separate printed sheets overlapping on top of or below a rear edge of its previously fed printed sheet; and a pressing roller configured to move the at least one continuous sheet, and to adhere the at least one continuous sheet on the printed sheets, thereby turning each one of the fed single and separate printed sheets into a continuous printed sheet (roll), thereby allowing utilizing a separated sheet printer for producing the printed roll.

A configurable cutting and transfer apparatus includes a cutter mechanism to cut an incoming web of material into a plurality of discrete articles and a transfer mechanism operable with the cutter mechanism to transfer and rotate the discrete articles from a web receiving location to an article placement location. The transfer mechanism includes a drive shaft rotatable about a transfer axis, a carriage plate mounted to the drive shaft so as to rotate therewith about the transfer axis, and a segmented puck wheel comprising a plurality of carriage units securable to, and repositionable on, the carriage plate so as to rotate therewith to travel along a transfer path about the transfer axis from the web receiving location to the pad placement location, each of the carriage units including a puck operable to provide a rotating and re-pitching of the articles between the web receiving location and the pad placement location.

A configurable cutting and transfer apparatus includes a cutter mechanism to cut an incoming web of material into a plurality of discrete articles and a transfer mechanism operable with the cutter mechanism to transfer and rotate the discrete articles from a web receiving location to an article placement location. The transfer mechanism includes a drive shaft rotatable about a transfer axis, a carriage plate mounted to the drive shaft so as to rotate therewith about the transfer axis, and a segmented puck wheel comprising a plurality of carriage units securable to, and repositionable on, the carriage plate so as to rotate therewith to travel along a transfer path about the transfer axis from the web receiving location to the pad placement location, each of the carriage units including a puck operable to provide a rotating and re-pitching of the articles between the web receiving location and the pad placement location.

The present disclosure provides a laminating device. The laminating device may include a first conveying device, a second conveying device, and a laminating apparatus. The first conveying device may be configured to convey a film-like structure. The second conveying device may be arranged along a conveying direction of the first conveying device. A conveying speed of the first conveying device may be greater than that of the second conveying device. The second conveying device may receive the film-like structure conveyed by the first conveying device. The film-like structure may form a folded portion on the second conveying device. The laminating apparatus may be configured to convey an object to be laminated and receive the film-like structure conveyed by the second conveying device. The film-like structure with the folded portion may be laminated with the object to be laminated on the laminating apparatus.

An assembly to manufacture a roll of prepreg material. The assembly includes a moving system for picking a sheet of prepreg material from a stack of sheets and moving the sheet along a feed path. An alignment system aligns a leading edge of the sheets with a trailing edge of a roll of the prepreg material. A welding system connects the sheet to the roll.