A cutting mechanism is provided for a dunnage conversion machine 10 that selectively cuts dunnage sheet stock drawable through the cutting mechanism. The cutting mechanism includes a frame and a pair of opposed cutting blades through which the sheet stock is drawable. The cutting blades include a driven blade and a biased blade, each supported relative to the frame for movement into and out of contact with one another. The driven blade is movable towards the biased blade to cut the sheet stock. The biased blade is biased against movement away from the driven blade to allow for self-adjustability to counter wear of one or both of the opposed blades. Contact of the opposed blades with one another causes the biased blade to be deflected away from the driven blade.

A dunnage conversion machine includes a drive mechanism configured to deform a stock material into dunnage. The drive mechanism may include a roller with an outer surface having a first shape, and another roller having an outer surface with a second shape different than the first shape. The dunnage conversion machine also may include a cutting mechanism that includes an anvil having a curvilinear surface, and a cutting portion, with the anvil and the cutting portion being configured to cut the dunnage. The dunnage conversion machine also may include an inlet chute configured to feed the stock material to the dunnage conversion machine. The inlet chute may include a protrusion located within an interior channel of the inlet chute and configured to restrict larger objects, such as the fingers and hands of an operator, from moving down the interior channel.

A dunnage conversion machine that converts a stock material into a less dense dunnage product includes an outlet chute having a housing with a passage therethrough from an inlet at an inlet end downstream to an outlet at an outlet end spaced from the inlet end. The output chute includes a lower guide surface that defines a bottom side of the passage. The lower guide surface has an upstream end toward the inlet and a downstream end toward the outlet. The upstream end of the lower guide surface is spaced from a centerline of the passage a distance that is greater than a distance that the downstream end is spaced from the centerline of the passage to provide an inclined surface, such that a cross-section of the passage decreases from the inlet to the outlet.

A device for manually or mechanically producing a tubular packaging material of a paper web is wound to form a roll, which forms an internal cavity, from which the paper web can be drawn to form packaging material. The device includes a receptacle for at least partially circumferentially encompassing the roll and an axial holder for holding an end face of the roll. The axial holder has a wall, in which a dispensing opening for dispensing the packaging material in an axial dispensing direction is formed. The wall has an inner guide contour, which tapers in a funnel-like manner in the axial dispensing direction from the receptacle to the dispensing opening. The wall is provided with at least one front axial recess at a front end of the axial holder in the axial dispensing direction.

A conversion assembly for a dunnage conversion machine includes both a downstream pair of rotatable members and an upstream pair of rotatable members upstream of the downstream rotatable members. The downstream rotatable members include a pair of gears, and each gear has a plurality of teeth and is rotatable about a respective axis. The gears are positioned so that the teeth of one gear are sequentially interlaced with the teeth of the other gear as the gears rotate. The upstream rotatable members include a pair of feed wheels, and the gears and the feed wheels define a path for a sheet stock material from between the upstream pair of feed wheels to between the downstream pair of gears. The rate at which the sheet stock material is advanced by the feed wheels is the same as the rate at which the sheet stock material is advanced by the gears.

An apparatus for the provision of packaging material includes a forming unit for producing a cushion or tubular-like packaging material from a paper strip and for ejecting the packaging material. A feeding unit draws in the paper strip from a Leporello stack-shaped paper strip supply having two feed rollers opposing each other for driving the paper strip and a motor for operating the feed rollers. A preforming station is positioned upstream the feed unit in paper feed direction for transverse compression of the paper strip. A guiding unit is positioned upstream the preforming station in paper feed direction for aligning the paper strip for the preforming station and a frame, on which the preforming station is pivotably supported between a working position and a loading position.

An output chute safety mechanism includes an output chute, an output chute valve door, and an upstream valve door. The output chute includes a proximal end and a distal end. The output chute valve door includes a first configuration that obstructs the output chute and a second configuration that does not obstruct the output chute. The upstream valve door includes a first configuration that prevents the output chute valve door from being disposed in its second configuration and a second configuration that permits the output chute valve door to be disposed in its second configuration.

A device for manually or mechanically producing a tubular packaging material of a paper web is wound to form a roll, which forms an internal cavity, from which the paper web can be drawn to form packaging material. The device includes a receptacle for at least partially circumferentially encompassing the roll and an axial holder for holding an end face of the roll. The axial holder has a wall, in which a dispensing opening for dispensing the packaging material in an axial dispensing direction is formed. The wall has an inner guide contour, which tapers in a funnel-like manner in the axial dispensing direction from the receptacle to the dispensing opening. The wall is provided with at least one front axial recess at a front end of the axial holder in the axial dispensing direction.

A device for producing dunnage includes a jam detector. The detector is mounted on an outlet chute that receives dunnage produced by a dunnage mechanism of the device. The detector is sensitive to detect a dunnage jam within the outlet chute, and is associated with the dunnage mechanism to cause the dunnage mechanism to stop driving the dunnage into the outlet chute when a jam is detected.

A cutting mechanism is provided for a dunnage conversion machine 10 that selectively cuts dunnage sheet stock drawable through the cutting mechanism. The cutting mechanism includes a frame and a pair of opposed cutting blades through which the sheet stock is drawable. The cutting blades include a driven blade and a biased blade, each supported relative to the frame for movement into and out of contact with one another. The driven blade is movable towards the biased blade to cut the sheet stock. The biased blade is biased against movement away from the driven blade to allow for self-adjustability to counter wear of one or both of the opposed blades. Contact of the opposed blades with one another causes the biased blade to be deflected away from the driven blade.