Aluminum Can Recycling Apparatus and In-Facility Waste Handling Method

Abstract

A recycling apparatus for positioning within a canning facility receives pallets of damaged or otherwise unusable unfilled aluminum cans, and discharges the layers of cans within a depalletizer into a discharge chute which communicates with the hopper of a baler which compresses the cans and forms a compact bale which is then shipped to a recycled metal processor. The apparatus may be operated as a service to the canner charged on a per pound recovered basis.

Claims

1. An apparatus for in-plant recycling of aluminum cans without lids, comprising: an aluminum can depalletizer modified to freely feed an entire layer of aluminum cans without lids supported on a sheet of a pallet loaded with aluminum cans without lids, wherein the layer of aluminum cans without lids has a rectangular array having a length and a width and wherein the depalletizer has an opening which passes an entire row of cans without lids defining the width of the layer of aluminum cans without lids and arranged to feed simultaneously all the cans without lids in the row to a chute which leads to a hopper which feeds a baler arranged to crush the cans without lids to form a bale.

2. The apparatus of claim 1 wherein the chute has a bottom wall which is inclined downwardly and vertically extending side walls, and wherein the side walls are arranged to converge along with the bottom wall as the chute extends over the hopper so the flow of cans is disordered as it empties into the hopper.

3. The apparatus of claim 2 wherein the chute bottom wall and side walls are perforated or formed as grills of rods providing visibility into the chute.

4. The apparatus of claim 1 wherein the depalletizer is arranged to feed the layer of aluminum cans in a continuous and even rate to the chute.

5. The apparatus of claim 1 wherein the depalletizer does not receive any feedback with respect to the position of the cans as they pass to the chute.

6. The apparatus of claim 1 wherein the depalletizer is arranged with an open loop drive which pushes the layer of cans into the chute at a substantially constant velocity.

7. The apparatus of claim 1 wherein the depalletizer is arranged to operate open loop without feedback to completely remove all the cans on the pallet.

8. An apparatus for in-plant recycling of aluminum cans without lids, comprising: an aluminum can depalletizer having a frame with a volume therein to receive a pallet having multiple layers of aluminum cans without lids, each layer being supported on a sheet, the depalleterizer having a pusher which is connected to an actuator which is operable to feed each layer of aluminum cans without lids through a discharge opening in the frame onto a downwardly extending chute, the chute having upwardly extending side walls, the side walls converging as the chute extends away from the discharge opening; and a baler positioned beneath the chute and arranged to receive cans without lids exiting the chute, wherein within the baler multiple layers of cans without lids are compressed into a dense bale of crushed aluminum for transportation to be recycled.

9. The apparatus of claim 8 wherein the baler further comprises a hopper which receives cans fed through the discharge opening, wherein the hopper holds one or more complete layers of cans without lids from the pallet.

10. The apparatus of claim 8 wherein the chute is connected to the depalletizer.

11. The apparatus of claim 8 wherein the depalletizer is arranged to feed the layer of aluminum cans in a continuous and even rate to the chute.

12. The apparatus of claim 8 wherein the depalletizer is arranged to operate open loop without feedback to completely remove all the cans on the received pallet.

13. The apparatus of claim 8 wherein the chute has a bottom wall extending between the side walls.

14. The apparatus of claim 13 wherein the chute bottom wall and side walls are perforated or formed as grills of rods providing visibility into the chute.

15. A method of disposing of palletized aluminum cans without lids comprising the steps of: using a depalletizer to unload palletized aluminum cans into an apparatus which reduces the volume of the palletized aluminum cans; and transporting the cans thus reduced in volume to recycling.

16. The method of claim 15 wherein the apparatus which reduces the volume of the palletized aluminum cans is a device which crushes the cans into a bale.

17. The method of claim 15 wherein the depalletizer is operated open loop.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0011] FIG. 1 is a front isometric view of a depalletizer arranged with a chute that directs the cans as they are depalletized into a recycling baler where the cans are compressed into a bale for transportation to be recycled.

[0012] FIG. 2 is a schematic view of the prior art utilization of a depalletizer within a can filling facility, in which the depalletizer functions to unload open ended cans such that they can be fed undamaged in a processing line in a controlled manner.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0013] Referring more particularly to FIGS. 1-2, wherein like numbers refer to similar parts, an aluminum can recycling apparatus 20 is shown in FIG. 1. The apparatus 20 has a depalletizer 22 with a discharge chute 24 by which depalletized cans 26 are communicated to a hopper 28 of a baler 30. The depalletizer 22 and baler 30 may be positioned in sequence and fixed to the factory floor 31.

[0014] In a prior art process when a depalletizer is used within a canning facility the depalletizing function is deployed as part of a canning line which processes aluminum cans without tops. The canning line starts with taking the cans from the pallets on which they are supplied and proceeds through the steps of rinsing the cans, filling the cans, closing the cans with tops (which are separately packaged and shipped to the canner), labeling the cans and performing other post-filling steps. In the prior art canning use of the depalletizer, the depalletizer's function is to unload aluminum cans without tops from a pallet which may have 18 or more layers of cans separated by plastic sheets. A pallet of aluminum cans may have 7,000 or more cans which are unloaded one layer of cans at a time by the depalletizer and fed into one or more can conveyors. The depalletizer must push a single layer of cans off the pallet in a controlled way so as not to overload the subsequent mechanism which feeds the can conveyors, and must do all this without causing any damage to the open palletized cans.

[0015] The depalletizer 22 as shown in FIG. 1 is part of the recycling apparatus 20 of this invention, the depalletizer is repurposed to feed the recycling baler 30. The depalletizer 22 may be based on depalletizers of a conventional type, such as the Automated Depalletizer V3 from Cask Global Canning Solutions of Calgary, Alberta, Canada; Can-I-Bus Depalletizer from Ska Fab of Durango, CO, and the Depalletizer-500 from CODI of Golden, Colo.

[0016] In the apparatus 20, the depalletizer 22 operates on pallets 32 which are loaded with multiple layers of adjacent cans 26, separated by plastic sheets 34. Each pallet 32 is loaded into the frame 36 of the depalletizer 22. The depalletizer 22 has an internal mechanism which elevates the pallet to bring a layer of cans supported on a plastic sheet 34 to the discharge position where a discharge blade 38 is driven by an actuator 39 to advance the entire layer out of the depalletizer and into the chute 24. The chute 24 has a bottom wall 40 which is inclined downwardly and vertically extending side walls 42, the side walls converge along with the bottom wall as the chute 24 extends over a hopper 28 so the flow of cans is disordered as it emptied into the hopper. The chute bottom wall 40 and side walls 42 may be perforated or formed as grills of rods providing visibility into the chute. The inclination of the chute 24 allows the force of gravity to advance the cans into the hopper 28. Once a layer of cans 26 has been discharged, the blade 38 is reversed by the actuator 39 and is retracted to clear the pallet 32, and the underlying plastic sheet 34 is ejected from the side of the depalletizer opposite the discharge chute 24, and passed to a sheet stack 44 for collection and reuse.

[0017] Once the uppermost sheet 34 has been cleared, the internal mechanism of the depalletizer elevates the pallet by the height of a single layer to bring the next lowermost layer into position for discharge by the blade 38. This process is repeated until all the cans 26 and sheets 34 have been removed from the pallet 32. The pallet is then unloaded from the depalletizer frame 36, and the next pallet load of cans 26 may be loaded.

[0018] The layer of aluminum cans 26 has a rectangular array having a length and a width. The depalletizer 22 has an opening 37 in the frame which is sufficiently wide to pass an entire row of cans which defines the width of the layer of cans. The depalletizer is thus configured to simultaneously feed all the cans in the row to the chute 24.

[0019] In the apparatus 20 the depalletizer 22 is configured to systematically feed cans without feedback to the chute 24, pouring the cans into the hopper 28 which holds one or more complete layers of cans from the pallet 32. As the cans are not constrained or ordered as would be necessary to feed into a can conveyor arrangement, there is no need for any feedback loop or sensors for monitoring can position or congestion. Moreover, there is no requirement that cans be handled gently to avoid damage. Within the baler 30 multiple layers of cans are compressed into a dense bale which is passed out of the baler 22 ready for shipment to a recycled metal processor. One suitable baler 30 is model TSI TC-710 available from Mile-X Equipment Inc. of Coldwater Ohio. Another suitable baler is the SINOBALER® baler from Ningbo Sinobaler Machinery Company limited of Ningbo P.R. China.

[0020] Canning operations can regularly process and fill vast quantities of cans. With all the various jobs undertaken by the facility, damaged or otherwise unusable cans can constitute significant quantities of material to be disposed of in an efficient manner which recovers as much of the material as possible at an acceptable cost. Nevertheless, this process is secondary to the operation of the canning facility. The apparatus 20 of the invention may be operated by independent contractors to the canning facility, which can charge by the pound of material recovered. In this way the canning operator can readily project costs, effectively dispose of unneeded cans, and avoid management effort for what is an ancillary process. The contractor can handle service and operation of the apparatus. Because the apparatus works on one pallet at a time, if the apparatus must be taken out of service for repairs or maintenance, several pallets may accumulate until service is restored.

[0021] It is understood that the invention is not limited to the particular construction and arrangement of parts herein illustrated and described, but embraces all such modified forms thereof as come within the scope of the following claims.