Dunnage conversion machine, method, and product with a polygonal cross-section

1 . A machine for converting a sheet stock material into a relatively less dense dunnage product as the sheet stock material moves in a downstream direction through the machine, the machine comprising: a forming assembly that defines a portion of a path for the sheet stock material through the machine in the downstream direction, the forming assembly being configured to form the sheet stock material into a tubular shape with lateral edges of the sheet stock material adjacent one another; the forming assembly including a deflector at a downstream end of the forming assembly configured to engage the lateral edges of the sheet stock material and to urge the lateral edges inward into an interior of the tubular shape with lateral edge portions of the sheet stock material adjacent the lateral edges being brought into juxtaposition; the forming assembly including a recess at a downstream end of the forming assembly facing the deflector for receiving the lateral edge portions from the deflector and shaping them into a tab; and a feeding assembly downstream of the forming assembly, the feeding assembly including rotating connecting members that engage and connect the overlapping lateral edge portions of the sheet stock material forming the tab. 2 . The machine according to claim 1 , where the forming assembly and the feeding assembly are configured to urge portions of the sheet stock material respectively adjacent opposite sides of the tab toward the tab for passage between the rotating connecting members along with the tab such that the adjacent portions are connected to the tab and form with the tab a ridge on one side of the tubular shape. 3 . The machine according to claim 2 , further comprising a forming plough at a downstream end of the forming assembly spaced from the deflector and the forming channel, the forming plough extending into the path of the sheet stock material to shape a side of the tubular shape between the forming assembly and the feeding assembly. 4 . The machine according to claim 2 or claim 3 , where the forming plough has a central portion and lateral side wings angled relative to the central portion to facilitate guiding the sheet stock material toward the feeding assembly. 5 . The machine according to claim 1 or any preceding claim, where the forming assembly includes an external forming member having interior side surfaces that converge towards one another going in the downstream direction, the converging side surfaces causing the side portions of the sheet stock material to inwardly turn and randomly crumple as the sheet stock material passes through the forming assembly. 6 . The machine according to claim 5 , where the external forming member is in the form of a converging chute having converging side walls forming the converging side surfaces. 7 . The machine according to claim 5 or claim 6 , where the deflector is mounted to extend inwardly from an interior surface of the external forming member. 8 . The machine according to claim 1 or any of claims 2 to 7 , where the forming assembly includes an internal forming member extending into the external forming member and around which the lateral edges of the sheet stock material wrap as the sheet stock material moves downstream through the forming assembly. 9 . The machine according to claim 8 , where the internal forming member is spaced inwardly from the interior side surfaces to constrain movement of the sheet stock material therebetween along a portion of the path for the sheet stock material. 10 . The machine according to claim 8 or claim 9 , where the forming channel is incorporated into an exterior surface of the internal forming member. 11 . The machine according to claim 1 , where at least one of (a) the deflector and the forming channel are coextensive, (b) the deflector extends into the forming channel, and (c) the deflector and the forming channel extend in a downstream direction. 12 . The machine according to claim 1 , further comprising a severing assembly downstream of the feeding assembly that includes a pair of rollers configured to engage the sheet stock material therebetween and to rotate the rollers at a faster speed than the feeding assembly to tear the sheet stock material at a line of perforation. 13 . A dunnage product made from a sheet stock material formed into a tube having at least three planar sides giving the tube a polygonal cross-sectional shape, where the planar sides of the tube are crumpled and adjacent planar sides are joined at respective vertices of the polygonal cross-sectional shape, and where lateral edge portions of the sheet stock material are connected together to form a ridge disposed along one of the vertices. 14 . The dunnage product according to claim 13 , where the ridge has a stiffness greater than the stiffness of those portions of the sheet stock material not forming the ridge. 15 . A method for converting a sheet stock material into a relatively less dense dunnage product as the sheet stock material moves in a downstream direction, the method comprising the steps of: forming the sheet stock material into a tubular shape with lateral edges of the sheet stock material adjacent one another; engaging the lateral edges of the sheet stock material and urging the lateral edges to turn inwardly into an interior of the tubular shape; bringing the lateral edges and adjacent lateral edge portions of the sheet stock material into juxtaposition; shaping the lateral edge portions into a tab with the lateral edges extending into the interior of the tubular shape; and connecting the lateral edge portions of the sheet stock material forming the tab. 16 . The method of claim 15 , where the shaping step includes gathering outer portions of the sheet material outside the tab inwardly against the lateral edge portions extending into the interior of the tubular shape, and connecting the layers of sheet material forming the outer portions and the inwardly-extending lateral edge portions to form the tab. 17 . The method of claim 15 or claim 16 , where the forming step includes using a forming assembly to crumple the sheet stock material and to form the sheet stock material into the tubular shape. 18 . The method of claim 15 or any of claims 16 to 17 , where at least one of (a) the engaging step includes using a deflector within an external forming member to turn the sheet stock material toward an interior of the tubular shape; (b) the shaping step includes using a forming channel at the downstream end of the forming assembly, facing the deflector for receiving the lateral edge portions and shaping the tab; and (c) the connecting step includes drawing the tab between rotating connecting members. 19 . A machine for converting a sheet stock material into a relatively less dense dunnage product as the sheet stock material moves in a downstream direction, the machine comprising: means for rolling lateral edges of the sheet stock material towards one another to form the sheet stock material into a tubular shape; means for engaging the lateral edges of the sheet stock material and urging the lateral edges to turn inwardly into an interior of the tubular shape; means for bringing the lateral edges and adjacent lateral edge portions of the sheet stock material into juxtaposition; means for shaping the lateral edge portions into a tab that protrudes into an interior of the tubular shape; and means for connecting the lateral edge portions of the sheet stock material forming the tab. 20 . The