Described is a device for feeding and accumulating film (2) made of plastic material wound on a reel to a bagging machine (4), comprising a frame (9), means for supporting at least one reel (3) of film (2) made of plastic material supported by the frame (9), a first and a second group (G1, G2) of rollers for redirecting the film (2) made of plastic material, the rollers of the first and second group (G1, G2) being arranged in two respective rows parallel to each other, the film (2) being designed to be wound alternatively on the rollers of the two groups (G1, G2) forming a plurality of loops.

A testing machine to perform measurements and/or tests on a plastic film comprises a basic structure provided with a supporting plane, an unwinding station provided with an unwinding roller that supports a reel of film, a pre-stretching station arranged to unwind and to pre-stretch the film from the reel. The testing machine further comprises a wrapping station provided with a testing drum to be wrapped by the film coming out from the pre-stretching station, a plurality of measuring groups to perform measurements of dimensional and/or physical parameters of the reel and of the film, and a plurality of testing groups to perform respective tests and measurements on the film in order to determine mechanical and physical properties thereof.

A sheet supply device includes a support portion that rotatably supports a roll sheet, a drive portion that rotates the roll sheet supported by the support portion in a first direction and a second direction opposite to the fist direction, a first supply path to which a sheet from the roll sheet supported by the support portion is supplied, a second supply path to which a sheet from the roll sheet supported by the support portion is supplied, and a conveyance path that conveys the sheet supplied from the first supply path and the second supply path. The drive portion rotates the roll sheet in the first direction and supplies the sheet from the first supply path and rotates the roll sheet in the second direction and supplies the sheet from the second supply path.

The rewinding machine (1) comprises: a winding station (3) with winding members (5, 7) operated by winding motors (8.1, 8.2); an unwinder (31.1, 31.2) with an unwinding member (35.1, 35.2) operated by at least one unwinding motor (38.1, 38.2); guide roller (43.1, 43.2) along a feed path (P) of the web material (N, N2). There is associated with the guide roller (43.1, 43.2) at least one load sensor (42.1, 42.2), adapted to detect a parameter proportional to the tension of the web material (N; N2) guided around the guide roller (43.1, 43.2). There is also provided a control unit (71) adapted to modulate a difference in speed between the winding members (5, 7) and the unwinding member (35.1, 35.2) as a function of a signal coming from the load sensor (42.1, 42.2).

The rewinding machine (1) comprises: a winding station (3) with winding members (5, 7) operated by winding motors (8.1, 8.2); an unwinder (31.1, 31.2) with an unwinding member (35.1, 35.2) operated by at least one unwinding motor (38.1, 38.2); guide roller (43.1, 43.2) along a feed path (P) of the web material (N, N2). There is associated with the guide roller (43.1, 43.2) at least one load sensor (42.1, 42.2), adapted to detect a parameter proportional to the tension of the web material (N; N2) guided around the guide roller (43.1, 43.2). There is also provided a control unit (71) adapted to modulate a difference in speed between the winding members (5, 7) and the unwinding member (35.1, 35.2) as a function of a signal coming from the load sensor (42.1, 42.2).

In a printer having first and second clamps, the deformation of a recording medium due to the web tensile force produced in the printer can be determined using the first and the second clamps. The deformation can be determined in advance of a printing process and/or during the printing operation. A print image can be adapted based on the determined deformation to compensate for the deformation of the recording medium.

In a printer having first and second clamps, the deformation of a recording medium due to the web tensile force produced in the printer can be determined using the first and the second clamps. The deformation can be determined in advance of a printing process and/or during the printing operation. A print image can be adapted based on the determined deformation to compensate for the deformation of the recording medium.

Embodiments of the present invention are related to a media transport assembly for printers, such as a kiosk printer. The media transport assembly may comprise a biased guide roller structured to dampen media tension shocks, discontinuities, or variations. Other embodiments of the present invention may also provide a media transport assembly configured to allow increased flexibility in media supply roll mounting and for easy loading and threading of the media.

Embodiments of the present invention are related to a media transport assembly for printers, such as a kiosk printer. The media transport assembly may comprise a biased guide roller structured to dampen media tension shocks, discontinuities, or variations. Other embodiments of the present invention may also provide a media transport assembly configured to allow increased flexibility in media supply roll mounting and for easy loading and threading of the media.

A printing apparatus is configured to perform in a first mode in which a second driving unit drives a second spool to feed out a sheet from a roll to a printing unit via a second guide, the printing unit performs printing on the fed sheet, and a basket unit receives the printed sheet printed on by the printing unit, and a second mode in which a first driving unit drives a first spool to feed the out the sheet from a roll to the printing unit via a first guide, the printing unit performs printing on the fed sheet, and the second driving unit drives the second spool to wind up the printed sheet printed by the printing unit as a roll.