Apparatus and method for the making of a pressure-sensitive adhesive stock for labels using a label production line, are disclosed. The stock comprises a first layer of facestock material configured to be die-cut to form the stock of labels surrounded by a matrix, the first layer being backed by a layer of pressure-sensitive adhesive, which in turn is covered by a release liner. 5 The apparatus and method allow the matrix of the facestock to be peeled-off from the release liner on the label production line without stopping the label production line by merely slowing down the label production line. A pressure-sensitive adhesive stock free of the matrix of the facestock is therefore produced without lowering production yields.

A slitting machine (500) includes a laminated film unwinding apparatus (540), a release liner recovery apparatus (550), a cutting apparatus (530), and a plurality of polymer substrate strip rewinding apparatuses (510, 520). The laminated film unwinding apparatus (540) is operable to unwind a roll of laminated film (542) comprising at least a polymer substrate (100) and a release liner (150). The release liner recovery apparatus (550) is operable to wind the release liner (150) that is released from the polymer substrate (100). The cutting apparatus (530) is operable to cut at least the polymer substrate (100) along a machine direction to divide the polymer substrate into strips. The plurality of polymer substrate strip rewinding apparatuses (510, 520) are operable to wind one or more strips of the polymer substrate (100) onto one or more rolls (512, 522). The slitting machine (500) is operable to carry out a method for forming rolls (512, 522) of coated films (100).

A debonding support device includes a suction plate including a support region for supporting a glass assembly, the support region including at least two suction regions applying different suction forces per unit area, the suction regions including a debonding initiation portion suction region for sucking a debonding initiation portion at which debonding of the glass assembly is to be initiated, the debonding initiation portion suction region applying the strongest of the different suction forces per unit area; a vacuum pump connected to the suction plate to provide a vacuum pressure for the suction plate, and a controller.

A kit for dispensing disposable stethoscope covers and other instrument covers is provided. The kit may include a cartridge and a dispenser for automatic touch-free dispensing of disposable stethoscope covers. The kit further includes a first spool having a roll of backing member with disposable stethoscope covers disposed thereon and a second spool for receiving the spent backing member after a disposable stethoscope cover has been removed, self-contained within the cartridge. The cartridge is inserted within the dispenser so that a user may insert a stethoscope head through a window of the dispenser to attach to a disposable stethoscope cover. Alternatively, the cartridge or cassette may be comprised of disposable instrument covers so that a user may insert the instrument near or through the window of the dispenser for application of the instrument cover directly to the instrument. The kit may further include a proximity sensor for detecting a user.

A sheet binding apparatus according to an embodiment includes a tape holding section and a guide section. The tape holding section holds a tape in at least two parts. The guide section guides a sheet bundle to between the two parts of the tape. The tape holding section bends and holds the tape to be convex to a conveying direction downstream side of the sheet bundle.

A flavor dispenser device and a head mounting device including the flavor dispenser to enhance the user experience of a motion picture is provided. The flavor dispenser device includes a tape cartridge and a drive mechanism. The tape cartridge includes one or more flavor strips. The drive mechanism advances the tape cartridge inside a first housing, and the one or more flavor strip is dispensed from the first housing in case the drive mechanism is in operation.

An embodiment of the present invention is a printer in which peeling issuing and continuous issuing can be switched. Peeling issuing allows a label to be issued after being peeled from a liner of a print medium with the label releasably attached on the liner. Continuous issuing allows the label to be issued without being peeled from the liner. The printer includes a feed roller configured to feed the print medium and also includes a peeling unit including a peeling roller holder and a peeling roller cover. The peeling roller holder holds a peeling roller that faces the feed roller in peeling issuing. The peeling roller cover axially supports the peeling roller holder in a swingable manner and is movable between a closed position and an open position. When the peeling roller cover is at the open position, the peeling roller holder is swingable between a first position for facing a back surface of the peeling roller cover and a second position at which the peeling roller is not covered with the peeling roller cover. The peeling unit further includes a biasing member that biases the peeling roller holder from the first position to the second position.

A label printer includes a print head, a transporting roller, a peeling roller, and a control unit, wherein the control unit controls a current value to be supplied to a peeling motor configured to rotate the peeling roller such that a transport force of the peeling roller for transporting the backing sheet is equal to or greater than a minimum force required for peeling the label and is greater than a maximum friction force between the peeling roller and the backing sheet, and the maximum friction force and a maximum friction force between the transporting roller and the label sheet are set such that the maximum friction force between the peeling roller and the backing sheet is equal to or smaller than a transport force of the peeling roller that sets a transport error of the label sheet by the transporting roller to be within an acceptable value.

A sheet binding device includes a sheet shifting unit, a tape cutter, and a tape attachment unit. The sheet shifting unit has a guide and is configured to stack multiple sheets on the guide with edge portions that are shifted from each other to form a sheet bundle. The tape cutter cuts tape with a target length that is varied in accordance with a thickness of the sheet bundle. The tape attachment unit is configured to attach the cut tape having the target length to an edge portion of the sheet bundle.

A label printer includes a print head configured to perform printing on a label sheet, a transporting roller configured to transport the label sheet downstream, a peeling roller configured to transport a backing sheet in a direction different from a travelling direction of a label to peel the label from the backing sheet, and a control unit configured to control rotation of the transporting roller and rotation of the peeling roller, wherein a maximum friction force between the transporting roller and the label sheet are set such that the maximum friction force between the peeling roller and the backing sheet is not greater than a transport force of the peeling roller so as to make a transport error of the label sheet by the transporting roller within an acceptable value.