According to an embodiment of the present disclosure, a method of labeling a plurality of products includes coating a pressure sensitive adhesive to a roll of face stock, the roll of face stock configured to be converted to a plurality of individual labels aligned in a single lane; singulating an individual label from the roll of face stock; and applying the individual label to a product of the plurality of products, wherein the coating, singulating and applying are conducted sequentially in a single continuous operation with a single continuous web of material.

This disclosure relates generally to an assembly and process for preparing affixing tape. The disclosure also relates to an affixing assembly and process using the prepared tape. The tape can be used, for example, to affix plastic items to mailing pieces. The assemblies and processes disclosed herein provide for added throughput, less down time, higher quality of parts and production control.

A consumable material for use in an extrusion-based digital manufacturing system, the consumable material comprising a length and a cross-sectional profile of at least a portion of the length that is axially asymmetric. The cross-sectional profile is configured to provide a response time with a non-cylindrical liquefier of the extrusion-based digital manufacturing system that is faster than a response time achievable with a cylindrical filament in a cylindrical liquefier for a same thermally limited, maximum volumetric flow rate.

A system for manufacturing a display unit according to an exemplary embodiment of the present invention includes: a carrying unit configured to carry an optical film including a polarizing film and a release film, wherein the polarizing film includes an adhesive layer through which, a release film adheres to and is peeled from the polarizing film; a cutting unit configured to cut the optical film up to a predetermined depth to form a polarizing film sheet piece on the optical film, without cutting the release film; a panel supply unit configured to continuously supply a panel to an attachment position, at which the polarizing film sheet piece is attached to one surface of the panel; an attachment unit configured to peel the polarizing film sheet piece from the release film, and attach the peeled polarizing film sheet piece to the one surface of the panel supplied by the panel supply unit; and a winding unit configured to wind the release film peeled by the attachment unit, wherein the attachment unit includes: an adhering means, which has an adhering property at an external side thereof, and peels the polarizing film sheet piece from the release film by the adhering property, and moves to the attachment position and makes the polarizing film sheet piece face the one surface of the panel in parallel; and an attaching means, which presses the adhering means to attaches the polarizing film sheet piece to the one surface of the panel.

An automatic plasticizing equipment (17) for image sheets (26) comprises a first plasticizing device (27) and an electronic control unit (22) for the plasticizing device and in which the first plasticizing device employs a first plasticizer film (28) unwinding from a first film spool (29). The plasticizing equipment (17) processes image sheets (26) with associated enhanced sheet codes (ESC), readable by machine, having dimension and finishing information associated to said image sheets (26). The equipment (17) further comprises a second plasticizing device (41), downstream of the first plasticizing device (27) for a second plasticizer film (42) of different typologies unwinding from a second film spool (43) for pre-forming plasticized image sheets (31, 44) of different typologies; and the electronic control unit (22) responds to the dimension and finishing information from the enhanced sheet codes (ESC) for selectively activating the first plasticizing device (27) or the second plasticizing device (41) or to leave the plasticizing devices deactivated so as to obtain plasticized image sheets (31, 44) of different typologies of plasticization or non-plasticized image sheets (46).

This disclosure relates generally to an assembly and process for preparing affixing tape. The disclosure also relates to an affixing assembly and process using the prepared tape. The tape can be used, for example, to affix plastic items to mailing pieces. The assemblies and processes disclosed herein provide for added throughput, less down time, higher quality of parts and production control.

A method of manufacturing a wind turbine blade shell part is described. Fibre mats and a root end insert are laid up in a mould part in a layup procedure by use of an automated layup system. The fibre mats are laid up by use of a buffer so that the fibre mats may continuously be laid up on the mould surface, also during a cutting procedure. The root end insert is prepared in advance and mounted on a mounting plate. The root end insert is lowered onto the mould by use of the mounting plate and a lowering mechanism. After the wind turbine blade shell has been moulded, the mounting plate is removed.

A method of manufacturing a wind turbine blade shell part is described. Fibre mats and a root end insert are laid up in a mould part in a layup procedure by use of an automated layup system. The fibre mats are laid up by use of a buffer so that the fibre mats may continuously be laid up on the mould surface, also during a cutting procedure. The root end insert is prepared in advance and mounted on a mounting plate. The root end insert is lowered onto the mould by use of the mounting plate and a lowering mechanism. After the wind turbine blade shell has been moulded, the mounting plate is removed.

According to an embodiment of the present disclosure, a method of labeling a plurality of products includes coating a pressure sensitive adhesive to a roll of face stock, the roll of face stock configured to be converted to a plurality of individual labels aligned in a single lane; singulating an individual label from the roll of face stock; and applying the individual label to a product of the plurality of products, wherein the coating, singulating and applying are conducted sequentially in a single continuous operation with a single continuous web of material.

Systems and methods are provided for laying up laminates. One embodiment is a method that includes laying up a multi-layer laminate of fiber reinforced material onto a surface, by: feeding a tape of fiber reinforced material to tape cutters which cut the tape into pieces, picking up pieces of the fiber reinforced material via pick-and-place devices at each of multiple lamination units that are in sequence in a direction of travel, and placing the pieces of fiber reinforced material via the pick-and-place devices to form a laminate as the surface and the lamination units change position with respect to each other and multiple pieces are laid-up concurrently.