A method for stacking a ply (50) which is transferred from a rubber mixing system to a stacking system (100) comprises the steps of transferring the ply (50) to a stacking head (120) of the stacking system (100); passing the ply (50) to a motorized belt (110) of the stacking system (100), the motorized belt (110) being able to turn in both directions and being able to move in translation, and the motorized belt (110) being situated between the stacking head and a pallet (P) chosen from a pallet (P) with edges and a pallet (Q) without edges; and setting the motorized belt (110) into movement in translation so as to move along a path such that the motorized belt (110) receives the ply (50) from the stacking head (120) and makes a downstream end (50b) of the ply (50) to be stacked accessible in order to connect it to an upstream end (52a) of a ply (52) of a successive pallet and form a butt joint between the plies (50, 52).

A printing apparatus and a sheet storage device meet a need for diversification in printing modes while reducing a load on a user. A printing apparatus includes a first holder which rotatably holds a roll sheet, a second holder which is located below the first holder and rotatably holds a roll sheet, a printing unit which performs printing on a shed reeled out of the first holder or the second holder, a discharge port which is provided above the first holder and discharges the sheet printed by the printing unit, and a receiving unit which is provided between the first holder and the second holder and is capable of establishing a first stab of receiving a front end portion of the sheet discharged from the discharge port and a second state of not receiving the front end portion.

A printing apparatus and a sheet storage device meet a need for diversification in printing modes while reducing a load on a user. A printing apparatus includes a first holder which rotatably holds a roll sheet, a second holder which is located below the first holder and rotatably holds a roll sheet, a printing unit which performs printing on a shed reeled out of the first holder or the second holder, a discharge port which is provided above the first holder and discharges the sheet printed by the printing unit, and a receiving unit which is provided between the first holder and the second holder and is capable of establishing a first stab of receiving a front end portion of the sheet discharged from the discharge port and a second state of not receiving the front end portion.

A machine for folding, cutting, and stacking napkins is provided. The machine has a feeding station, at least one pair of folding rollers pivoting about horizontal rotational axes, a blade, and a pair of spacers having fingers configured to support the napkins stably downstream of the blade, with respect to a horizontal plane perpendicular to a direction of travel, the folding rollers being provided with circumferential slots for inserting the spacers.

A machine for folding, cutting, and stacking napkins is provided. The machine has a feeding station, at least one pair of folding rollers pivoting about horizontal rotational axes, a blade, and a pair of spacers having fingers configured to support the napkins stably downstream of the blade, with respect to a horizontal plane perpendicular to a direction of travel, the folding rollers being provided with circumferential slots for inserting the spacers.

Systems and methods for folding and stacking fanfold corrugated board material. A system may include a rotatable member (e.g., a wheel) having a number of head pieces disposed thereon. Each head piece has a vacuum setting that can be used to pick up a portion of a length of fanfold and hold it while the rotatable member rotates around its axis and a second blower setting that blows the portion of the length of fanfold that was picked up and rotated around the rotatable member down onto a stack of fanfold. Such a system is capable of forming regular and consistent stacks of fanfold material efficiently and cost effectively without the need for significant human intervention.

In a method for packing a spacecraft membrane (1) which in a plane of extension comprises a longitudinal axis between opposite longitudinal corners (4) and a transverse axis running transverse to the longitudinal axis and through transverse corners into a spacecraft membrane package, two packing steps are executed: In a first packing step, the spacecraft membrane (1) is packed into a transverse package (9) along the transverse axis. In a second packing step, the transverse package (9) is packed into a longitudinal package along a longitudinal axis. The packing of the spacecraft membrane (1) in the first packing step comprises a packing of material of the spacecraft membrane (1) from or on both sides of the longitudinal axis. In the first packing step, the spacecraft membrane (1) is packed in such a way that in the created transverse package (9) the transverse corners are freely accessible. In the second packing step, the transverse package (9) is packed in such a way that in the created longitudinal package the longitudinal corners (4) are freely accessible. The longitudinal package is unpacked by pulling on the longitudinal corners (4). Subsequently, the transverse package (9) is unpacked by pulling on the transverse corners.

In a method for packing a spacecraft membrane (1) which in a plane of extension comprises a longitudinal axis between opposite longitudinal corners (4) and a transverse axis running transverse to the longitudinal axis and through transverse corners into a spacecraft membrane package, two packing steps are executed: In a first packing step, the spacecraft membrane (1) is packed into a transverse package (9) along the transverse axis. In a second packing step, the transverse package (9) is packed into a longitudinal package along a longitudinal axis. The packing of the spacecraft membrane (1) in the first packing step comprises a packing of material of the spacecraft membrane (1) from or on both sides of the longitudinal axis. In the first packing step, the spacecraft membrane (1) is packed in such a way that in the created transverse package (9) the transverse corners are freely accessible. In the second packing step, the transverse package (9) is packed in such a way that in the created longitudinal package the longitudinal corners (4) are freely accessible. The longitudinal package is unpacked by pulling on the longitudinal corners (4). Subsequently, the transverse package (9) is unpacked by pulling on the transverse corners.

A system for forming and fanfolding a sheet material, from a web of indefinite length, having a bottom, top and longitudinal side edges, the system includes a frame, a feeding device, a creasing device downstream of the feeding device to form transverse creases on the web spaced apart at a constant longitudinal pitch and defining adjacent partitions, and a folding device located downstream of the creasing device for folding adjacent partitions along creases into a fanfold arrangement. The folding device includes at least one first group of thrust tools acting on creases formed on the bottom side of the web and at least one second group of thrust tools acting on creases formed on the top side of the web. The thrust tools of each group are mechanically connected to and operatively dependent on each other so that tools of the same group are forced to follow the same trajectory.

A machine for packing elongate bags for use with a waste disposal apparatus is disclosed herein. The machine comprises means for holding a reel of flexible tubing, the flexible tubing wound on the reel as a film having two parallel edges, the flexible tubing, when opened, forming a ring of elongate flexible tubing having an aperture at at least one end. The machine also comprises a pair of gripping means configured to engage and grip a region proximate to each edge of the film and draw the film of flexible tubing off of the reel, and a jig configured to be inserted into the aperture and hold a portion of the film in a ring around the jig, the jig configured to hold the film adjacent to and in engagement with the gripping means. Operation of the gripping means causes the film of elongate flexible tubing to be drawn over the jig and to be gathered in a ring of compacted flexible tubing around a base of the jig.