Proposed is a separator tension control device for stacking a separator of a secondary battery, the device including a separator stacking member (110) having a separator stacking unit (112) installed on an upper surface of a table (111) such that negative and positive plates of a secondary battery are alternately stacked by a separator (132), and a fixing plate (114) which allows a separator supply member (130) and a separator dancer member (150) to be installed thereon, the separator supply member (130) installed on one side of the separator stacking unit (112) so as to supply the separator (132) to the separator stacking unit (112), and the separator dancer member (150) installed on an upper side of the separator stacking member (110) such that the separator (132) supplied from the separator supply member (130) is supplied with constant tension.

Proposed is a separator tension control device for stacking a separator of a secondary battery, the device including a separator stacking member (110) having a separator stacking unit (112) installed on an upper surface of a table (111) such that negative and positive plates of a secondary battery are alternately stacked by a separator (132), and a fixing plate (114) which allows a separator supply member (130) and a separator dancer member (150) to be installed thereon, the separator supply member (130) installed on one side of the separator stacking unit (112) so as to supply the separator (132) to the separator stacking unit (112), and the separator dancer member (150) installed on an upper side of the separator stacking member (110) such that the separator (132) supplied from the separator supply member (130) is supplied with constant tension.

An example disclosed herein includes a media cartridge. The media cartridge includes a housing configured to rotatably support a media roll. The media cartridge further includes a cartridge output within the housing configured to guide a media web from the media roll out of the housing. The media cartridge includes a spring and a media stop assembly configured to translate between a release position and a hold position. When the media stop assembly is in the hold position, the media web of the media roll is pinched between the media stop assembly and a surface and when the media stop assembly is in the release position, the media stop assembly is separated from the surface and the media web is free to move. The spring further biases the media stop assembly towards the hold position and is removable without opening the housing of the media cartridge.

An example disclosed herein includes a media cartridge. The media cartridge includes a housing configured to rotatably support a media roll. The media cartridge further includes a cartridge output within the housing configured to guide a media web from the media roll out of the housing. The media cartridge includes a spring and a media stop assembly configured to translate between a release position and a hold position. When the media stop assembly is in the hold position, the media web of the media roll is pinched between the media stop assembly and a surface and when the media stop assembly is in the release position, the media stop assembly is separated from the surface and the media web is free to move. The spring further biases the media stop assembly towards the hold position and is removable without opening the housing of the media cartridge.

A rolling machine suitable for rolling up a continuous printed support, even of great length, is provided having an intermediate unit, containing a second roller with a mobile axis mounted on a movable support of the machine. The second roller is configured to receive a printed substrate and to drag it simultaneously in an direction of advancement towards the roll on which the reel is wound and in a direction perpendicular to the direction of advancement. The movable support is configured to translate perpendicularly to the movable axis of the second roller to increase/reduce a length of an overall path of the printed substrate from the printer to the reel on which it is rolled. A related control method of such a rolling machine is also disclosed.

A rolling machine suitable for rolling up a continuous printed support, even of great length, is provided having an intermediate unit, containing a second roller with a mobile axis mounted on a movable support of the machine. The second roller is configured to receive a printed substrate and to drag it simultaneously in an direction of advancement towards the roll on which the reel is wound and in a direction perpendicular to the direction of advancement. The movable support is configured to translate perpendicularly to the movable axis of the second roller to increase/reduce a length of an overall path of the printed substrate from the printer to the reel on which it is rolled. A related control method of such a rolling machine is also disclosed.

An apparatus, in particular roll-type cross cutter, is shown and described, further in particular for forming a shingled stream of underlapping or overlapping sheets, in particular sheets of paper or cardboard, having a cross-cutting device for cutting a material web into individual sheets and having a web storage upstream of the cross-cutting device along the web transport path for storing and/or providing a material web, the material web being fed to the web storage from a web unwinding. According to the invention, it is provided that the web storage for storing the material web is arranged in the region of the cross-cutting device below the running height of the sheets.

An apparatus, in particular roll-type cross cutter, is shown and described, further in particular for forming a shingled stream of underlapping or overlapping sheets, in particular sheets of paper or cardboard, having a cross-cutting device for cutting a material web into individual sheets and having a web storage upstream of the cross-cutting device along the web transport path for storing and/or providing a material web, the material web being fed to the web storage from a web unwinding. According to the invention, it is provided that the web storage for storing the material web is arranged in the region of the cross-cutting device below the running height of the sheets.

A feed roller mechanism that feeds a continuous paper while nipping the continuous paper between a first roller and a second roller that face each other, the feed roller mechanism includes a plate-shaped first support member that supports the first roller, and a plate-shaped second support member that supports the first support member, wherein the first roller nips the continuous paper with the second roller by a deflection reaction force of the first support member.

A feed roller mechanism that feeds a continuous paper while nipping the continuous paper between a first roller and a second roller that face each other, the feed roller mechanism includes a plate-shaped first support member that supports the first roller, and a plate-shaped second support member that supports the first support member, wherein the first roller nips the continuous paper with the second roller by a deflection reaction force of the first support member.