The present invention relates to dunnage converters that convert stock material into a dunnage product, and more particularly, to an output chute guard for a dunnage conversion machine that allows the dunnage product to exit the machine but inhibits access through the chute from an open end of the chute.
In a dunnage converter a conversion assembly typically advances a stock material through the converter in a downstream direction, forming a dunnage product as the stock material passes through a conversion assembly. The leading end of a strip of dunnage typically exits the converter through an output chute that temporarily supports the strip until a section is separated from the strip to form a discrete dunnage product. In certain circumstances, such as a jam in the converter, for example, operating the converter in reverse can be helpful to clear the jam by backing the strip of dunnage through the chute in an upstream direction opposite the downstream direction.
To block foreign objects from passing through the chute in the upstream direction, however, the chute can be equipped with a shield. An exemplary cushioning conversion machine and several embodiments of output chute shield mechanisms are disclosed in the international patent application published in English under Publication No. WO 98/00288, on Jan. 8, 1998. Although prior output chute shield mechanisms perform adequately in many situations, it would be desirable to further inhibit access through a chute from a downstream end in an upstream direction.
The present invention provides a dunnage conversion machine having an output chute with an improved guard that is difficult to open from a downstream end of the chute when the guard is in a closed position.
More particularly, the present invention provides a dunnage converter that includes an output chute through which a strip of dunnage is discharged. The converter includes a conversion assembly that converts a stock material into a strip of dunnage as the stock material passes therethrough in a downstream direction. The output chute is downstream of the conversion assembly, and a guard disposed in the chute. The guard is movable between an open position allowing passage of the strip of dunnage through the chute and a closed position inhibiting access to an upstream end of the chute from the downstream end of the chute. At its free end, the guard has both a forward glide surface operative to glide along an outer surface of the strip of dunnage as the strip moves in the downstream direction and a rearward glide surface operative to glide along an outer surface of the strip of dunnage as the strip moves in an upstream direction opposite the downstream direction.
The free end of the guard can have curved glide surfaces. When the guard is in a closed position where the free end is adjacent the sidewall of the chute, a downstream-most point of the upstream and downstream glide surfaces is inaccessible from a downstream end of the chute. In this closed position, with the free end adjacent the sidewall of the chute, the free end of the guard generally parallels the adjacent surface of the sidewall. The chute can also include a deflector that extends into the chute upstream of the guard to deflect the strip of dunnage toward a center of the chute.
The chute can also include an upstream-facing shoulder that defines a recess upstream of the shoulder that allows the free end of the guard to move to a position where the rearward glide surface is inaccessible from a downstream end of the chute. A curb that projects into the chute can form the shoulder and the recess upstream of the curb.
The present invention further provides a dunnage converter that includes a conversion assembly and an output chute through which a strip of dunnage is discharged downstream of the conversion assembly. The output chute in such a converter includes a guard that has a free end that is inaccessible from a downstream end of the chute when the guard is in a closed position.
The following description and the annexed drawings set forth in detail illustrative embodiments of the invention, which are indicative, however, of but a few of the various ways in which the principles of the invention can be employed.
Referring now to the drawings in detail,
The stock material supply 12 can include a suitable holder 24 toward an upstream end of the converter 10 for a supply of sheet material 14 for conversion into a dunnage product. The stock material, which can be in the form of a fan-folded stack or a roll of wound stock material 26, typically has one or more plies of sheet material. A multi-ply sheet stock material 14 is shown in the illustrated embodiment. One or more of the plies can be made of paper, such as printed paper, bleached paper, thirty or fifty pound weight kraft paper, etc., or combinations thereof. Other types of sheet material also can be suitable.
The sheet stock material 14 typically is fed past a constant entry guide or roller 36 before entering the converter 10. From the constant entry guide, the plies of the illustrated multi-ply sheet stock material are separated as they pass through a separating assembly 38 to the conversion assembly 16.
The conversion assembly 16 in the converter 10 shown in
Further details of exemplary dunnage converters and their components are described in U.S. Pat. Nos. 4,699,609; 5,123,889; 5,755,656; 6,174,273; 6,200,251; 6,203,481; 6,210,310; 6,277,459; 6,387,029; 6,468,197; and 6,491,614 and other patents assigned to Ranpak Corp. of Concord Township, Ohio, U.S.A. The present invention is not limited to such converters, however, but could be used with other types of dunnage converters as well.
The converter 10 generally includes a housing 54 in which the conversion assembly 16 is mounted. At the right in
An exemplary output chute 60 for a dunnage converter 10 is shown in more detail in
The output chute 60 also includes a guard 70 disposed in the chute 60. The guard 70 is movable between an open position (as shown in
The illustrated guard 70 is in the form of a plate that extends from an upper, upstream portion of the chute 60 downwardly and downstream to a bottom sidewall. The illustrated guard is mounted to the upper portion of the chute 82 by a hinge element 80 for pivotable movement about a pivot axis 82. Although the pivot axis is fixed in the illustrated exemplary embodiment, a floating pivot axis can be employed within the scope of the present invention. A deflector 96 extends into the chute 60 upstream of the guard 70 to deflect the strip of dunnage away from the hinge element 80 and toward a center of the chute.
In the embodiment shown in
When the guard 70 is in a closed position, where the free end 72 is adjacent the sidewall 92 of the chute 60, a downstream-most point of the upstream and downstream glide surfaces 74, 76 is inaccessible from a downstream end of the chute. When the guard 70 is in this closed position, the free end 72 of the guard is substantially parallel to the adjacent surface of the sidewall 92. The illustrated guard 70 also has a bend near the free end 72 that presents a concave surface to the downstream end 64 of the chute 60 and a convex surface to the upstream end 62 of the chute 60 when the guard 70 is in the closed position. Consequently, with the free end 72 of the guard 70 adjacent the surface of the chute 60, and behind the curb 90 in the recess 86, access to the free end 72 of the guard 70 from the downstream end 64 of the output chute 60 is difficult, if not impossible for all practical purposes. The guard 70 swings freely, however, in response to a strip of dunnage 20 entering the upstream end of the chute 60.
In the illustrated embodiment, the free end 72 of the guard has curved glide surfaces 74, 76 that engage the strip of dunnage 20 (
Another embodiment of an output chute 200 for use with a converter in accordance with the invention is shown in
In this embodiment, the guard 202 is essentially a hinged plate whose distal end extends into the slot 210 in the bottom wall of the chute 200 when the guard is in a closed position. Because the end of the guard 202 pivots into the slot 210, it is difficult to lift the free end of the guard 202 out of the closed position from the downstream end of the chute 200. The guard 202 pivots out of the slot 210 freely, however, under pressure from a strip of dunnage advancing from the upstream direction. With this type of guard, the end of the strip generally is cut off before the converter is reversed to avoid any possibility that the end 204 of the guard 202 would catch on or tear the strip.
The present invention also provides a combination of an output chute and guard as described above for mounting to a converter for receipt of a strip of dunnage.
Although the invention has been shown and described with respect to certain embodiments, equivalent alterations and modifications will occur to others skilled in the art upon reading and understanding this specification and the annexed drawings. In particular regard to the various functions performed by the above described integers (components, assemblies, devices, compositions, etc.), the terms (including a reference to a “means”) used to describe such integers are intended to correspond, unless otherwise indicated, to any integer which performs the specified function of the described integer (i.e., that is functionally equivalent), even though not structurally equivalent to the disclosed structure which performs the function in the herein illustrated exemplary embodiments of the invention. In addition, while a particular feature of the invention may have been described above with respect to only one of several illustrated embodiments, such feature may be combined with one or more other features of the other embodiments, as may be desired and advantageous for any given or particular application.
This application claims the benefit of U.S. Provisional Patent Application No. 60/655,090, filed Feb. 22, 2005, which is hereby incorporated herein in its entirety.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US06/06549 | 2/22/2006 | WO | 00 | 8/22/2007 |
Number | Date | Country | |
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60655090 | Feb 2005 | US |