Dunnage conversion machine and method

What is claimed is: 1. A dunnage conversion machine for converting a sheet stock material into a dunnage product, comprising: a connecting mechanism that connects a first web of sheet stock material to a second web of sheet stock material, where the connecting mechanism includes at least one pair of gears that intermesh to connect the first web of sheet stock material to the second web of sheet stock material, the gears include at least two laterally-spaced segments on opposing sides of an annular recess therebetween, and a stripper bar extends through the annular recess a distance upstream and downstream of the gears to help release the stock material from the gears; a bunching assembly upstream of the feed mechanism that inwardly gathers the sheet stock material to encourage the formation of longitudinally-extending fold lines in the stock material; and a feed mechanism for advancing at least the first web therethrough at a first rate, the connecting mechanism being downstream of the feed mechanism, and the feed mechanism includes at least one pair of rotating members for advancing sheet stock material therebetween, the connecting mechanism (a) retards the advancement of the sheet stock material by passing the sheet stock material therethrough at a second rate that is less than the first rate, thereby causing the first web to randomly crumple in a longitudinal space between the feed mechanism and the connecting mechanism, and (b) connects the crumpled first web to a second web to maintain the crumpled first web in its crumpled state. 2. A dunnage conversion machine for converting a sheet stock material into a dunnage product, comprising: a connecting mechanism that connects a first web of sheet stock material to a second web of sheet stock material, where the connecting mechanism includes at least one pair of gears that intermesh to connect the first web of sheet stock material to the second web of sheet stock material, the gears include at least two laterally-spaced segments on opposing sides of an annular recess therebetween, and a stripper bar extends through the annular recess a distance upstream and downstream of the gears to help release the stock material from the gears; a bunching assembly upstream of the feed mechanism that inwardly gathers the sheet stock material to encourage the formation of longitudinally-extending fold lines in the stock material; a feed mechanism for advancing at least the first web therethrough at a first rate, the connecting mechanism being downstream of the feed mechanism, and the feed mechanism includes at least one pair of rotating members for advancing sheet stock material therebetween, the connecting mechanism (a) retards the advancement of the sheet stock material by passing the sheet stock material therethrough at a second rate that is less than the first rate, thereby causing the first web to randomly crumple in a longitudinal space between the feed mechanism and the connecting mechanism, and (b) connects the crumpled first web to a second web to maintain the crumpled first web in its crumpled state; and a separator that cooperates with channel guides to define multiple channels for the stock material to travel through the feed mechanism to the connecting mechanism, whereby the channels confine the stock material as it crumples between the feed mechanism and the connecting mechanism, and each channel has a different height to promote different frequencies and amplitudes in the crumpling of respective webs of sheet stock material. 3. A conversion machine as set forth in claim 2 , where the connecting mechanism includes at least two laterally-spaced pairs of rotating gear members having interlaced teeth for deforming the sheet stock material passing therebetween to interlock multiple plies of sheet stock material. 4. A conversion machine as set forth in claim 3 , wherein each pair of the connecting gears includes a biasing member that biases one gear toward an opposing gear and provides adjustable pinch pressure. 5. A conversion machine as set forth in claim 2 , wherein the connecting mechanism includes one or more tunnel members that define a path for the sheet stock material between the feed mechanism and the connecting mechanism that constrains the sheet stock material therein, the feed mechanism advancing at least the first web of sheet stock material therethrough at a first rate, and the connecting mechanism retards the advancement of the sheet stock material by passing the sheet stock material therethrough at a second rate that is less than the first rate, thereby causing the first web to randomly crumple in a longitudinal space between the feed mechanism and the connecting mechanism, and the tunnel members facilitate crumpling the first web. 6. A conversion machine as set forth in claim 2 , where the rotating feed members include knurled wheels. 7. A conversion machine as set forth in claim 2 , comprising a cutting mechanism downstream of the connecting mechanism. 8. A conversion machine as set forth in claim 2 , comprising lateral guide members that are laterally spaced on opposing sides of the path of the sheet stock material to laterally inwardly-bunch the sheet stock material upstream of the feed mechanism. 9. A conversion machine as set forth in claim 2 , comprising a guide for guiding at least one sheet of stock material to the connecting mechanism and bypassing the feed mechanism to connect the crumpled sheet to an uncrumpled sheet to form a relatively flat wrapping dunnage product that retains its shape. 10. A conversion machine as set forth in claim 2 , comprising laterally-spaced forming members that extend into the path of lateral edge portions of the sheet stock material to urge those lateral edge portions inward to reinforce the edges of the stock material as those edge portions pass through the connecting mechanism.