A dunnage conversion machine for converting stock material into a dunnage product includes a forming assembly and a pulling assembly. The pulling assembly includes at least two grippers movable together through a transfer region in opposition to one another and cooperative to grip therebetween the d
A dunnage conversion machine for converting stock material into a dunnage product includes a forming assembly and a pulling assembly. The pulling assembly includes at least two grippers movable together through a transfer region in opposition to one another and cooperative to grip therebetween the dunnage strip for advancing the dunnage strip through the transfer region, and at least one of the grippers including an aperture operative to gather and laterally capture therein the dunnage strip as the grippers move through the transfer region. Also disclosed is a severing assembly including a movable blade and a reciprocating actuator connected to the blade by a motion transmitting assembly that moves the blade through a full severing cycle upon a stroke of the actuator in either direction. Also disclosed is a void fill dunnage product including a three dimensional crumpled strip of dunnage round in cross-section and including at least one ply of sheet material having, in cross-section, a crumpled multi-lobed undulating body, with the lobes thereof extending longitudinally and being dispersed in an irregular pattern.
대표청구항▼
What is claimed is: 1. A dunnage conversion machine for converting sheet stock material into a dunnage product, comprising a conversion assembly with (a) an inwardly-gathering device to inwardly gather lateral portions of a sheet stock material, where the device has an outlet at a downstream end an
What is claimed is: 1. A dunnage conversion machine for converting sheet stock material into a dunnage product, comprising a conversion assembly with (a) an inwardly-gathering device to inwardly gather lateral portions of a sheet stock material, where the device has an outlet at a downstream end and an inlet at an upstream end, and the device has a width dimension that is narrower at the outlet than at the inlet; and (b) at least two sets of paddles driven to rotate about respective axes and along respective continuous paths downstream of the outlet, where the respective axes are parallel to the width dimension of the outlet, the paddles have a dimension that extends substantially the width of the outlet, and the paddles have an outwardly-opening aperture for engaging the sheet stock material as the set of paddles rotate. 2. A machine as set forth in claim 1, where each set of paddles is driven independently but in synchronization with the other set to advance sheet stock material through the conversion assembly. of the transfer region to engage opposite sides of a strip of dunnage, transfer the strip through the transfer region, and progressively move away from one another at a downstream end of the transfer region to release the dunnage strip. 3. A machine as set forth in claim 2, where both sets of paddles are connected to a motor via a drive train. 4. A machine as set forth in claim 3, where each set of paddles is mounted around an axis to form a paddle wheel. 5. A machine as set forth in claim 4, where the drive train includes a gear mounted to each paddle wheel that coact with one another to drive the paddle wheels at the same speed. 6. A machine as set forth in claim 4, where each paddle wheel includes at least one paddle extending radially from a central core to engage and advance the sheet stock material as the paddle wheels rotate to move the paddles through a transfer region between the paddle wheels. 7. A machine as set forth in claim 4, where the paddles of each paddle wheel are circumferentially spaced around a common axis and are joined together for rotation about the common axis. 8. A machine as set forth in claim 4, where the paddles of each paddle wheel extend perpendicularly from the respective common axis. 9. A machine as set forth in claim 4, where the paddle wheels include a plurality of uniformly circumferentially spaced paddles, each of which has a generally planar shape. 10. A machine as set forth in claim 4, where the paddle wheels have parallel axes of rotation. 11. A machine as set forth in claim 1, where opposing paddles of respective sets move through a transfer region between the sets of paddles in longitudinally offset relation to engage and advance a strip of dunnage. 12. A machine as set forth in claim 11, where opposing paddles of respective sets transversely overlap while advancing through the transfer region without the paddles of one set engaging the paddles of the other set to drive the other set of paddles. 13. A machine as set forth in claim 11, where the opposing sets of paddles progressively move towards one another at an upstream end of the transfer region to engage opposite sides of a strip of dunnage, transfer the strip through the transfer region, and progressively move away from one another at a downstream end of the transfer region to release the dunnage strip. 14. A machine as set forth in claim 1, where the conversion assembly includes: a forming assembly for shaping the sheet material into a continuous strip of dunnage; and a pulling assembly positioned downstream from the forming assembly for advancing the sheet material through the forming assembly; the pulling assembly including the paddle wheels, and the paddles are movable through a transfer region in opposition to paddles in the opposing set and are cooperative to grip the strip of dunnage between them to advance the dunnage strip through the transfer region. 15. A machine as set forth in claim 14, where the forming assembly includes a constriction member which constricts and guides the strip of dunnage from a downstream end of the forming assembly to an engagement region between the opposing paddles. 16. A machine as set forth in claim 15, where the constriction member is a ring. 17. A dunnage conversion machine for converting sheet stock material into a dunnage product, comprising a conversion assembly with at least two paddle wheels rotatable about respective spaced, parallel axes; each paddle wheel including at least one paddle extending from a central core; the paddle has a width dimension parallel to the axis and the paddle extends in a substantially widthwise direction, and the paddle has an outwardly-opening aperture extending through the paddle between its widthwise extents so that the notch interrupts the distal extent of the paddle wheel along its width. 18. A machine as set forth in claim 17, where the conversion assembly further includes guide members at a downstream side of the paddle wheels, the guide members including fingers that correspond to the notch in the paddle to strip any sheet stock material from the outwardly-opening aperture and guide the sheet stock material downstream of the conversion assembly.
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