The present invention relates generally to a device for loading material on an automated loader. The invention relates more specifically to a device for moving material into a bag, casing, or net, especially if there is a high coefficient of friction between the material to be loaded and the material of the bag, casing, or netting.
Many types of automated loaders are used to encase material in a bag. For example, the automated poultry loader described in United States Published Patent Application No. 2008/0022636 A1, Two-in-One Bagger, the disclosure of which is incorporated herein by reference, can be used to encase a whole dressed bird such as a chicken, turkey, or duck. A stack of bags are placed on a bag carriage and presented at the distal end of a pair of horns. A typical plastic bag 20, as shown in elevation view in
Two apertures 30 are punched in extended portion 26. For automated loading operations, a stack 32 of bags 20a, 20b, 20c, etc., is connected by a wicket 34, as shown in
In a conventional poultry loader as known in the prior art, an air nozzle initially opens the top bag 20a. Top bag 20a is pulled over the pair of horns, or the horns are inserted into top bag 20a. The horns are separated such as by rotation in a plane, to stretch top bag 20a open, or the horns are separated by axial rotation to stretch top bag 20a open. In either case, top bag 20a has to be opened enough to be pulled over the horns or to receive the horns.
A ram then pushes poultry, such as a whole dressed chicken, into stretched-open top bag 20a. The ram continues to push the chicken through the horns, in some cases using a hooker pusher like the one described in U.S. Pat. No. 7,178,310, Poly-stretch Bagger System with Hocking Pusher, the disclosure of which is incorporated herein by reference. As the chicken is pushed through the horns, it pushes against the bottom of top bag 20a, causing it to come off the horns as well and collapse around the chicken.
When the chicken is pushed into top bag 20a by the ram, however, the chicken encounters plastic on the bottom and top and steel on two sides. There is a fairly high coefficient of friction between the skin of a dry, dressed Chicken (or other poultry) and a plastic bag made of polyethylene or similar plastic. Accordingly, there is a tendency for the chicken to tear the bag as the ram pushes it into the bag, which slows production considerably. Chicken baggers could ameliorate the situation by bagging wet chicken, but consumers would not appreciate it. Consumers prefer to purchase dry chicken, so chicken baggers have a marketing incentive to bag the chickens in a dry state. Similar concerns apply to other material that is bagged in a similar manner.
The present invention addresses these and other deficiencies of the prior art.
An improved automated loader has a cone horn to prevent or minimize contact between the chicken and the bag. The loader has a loading tube and the tube has a cone horn comprising a plurality of plates configured to form a cone, each one of the plurality of plates attached to the proximal end of the loading tube by a spring-loaded hinge, each hinge biased radially inward.
The organization and manner of the structure and operation of the invention, together with further objects and advantages thereof, may best be understood by reference to the following description, taken in connection with the accompanying non-scale drawings, wherein like reference numerals identify like elements in which:
While the invention may be susceptible to embodiment in different forms, there is shown in the drawings, and herein will be described in detail, specific embodiments with the understanding that the present disclosure is to be considered an exemplification of the principles of the invention, and is not intended to limit the invention to that as illustrated and described herein. The embodiments of the present invention will be described as part of a bag opener to be incorporated in an automated poultry loader. The present invention, however, can also be used on loaders for bagging and/or netting whole poultry, cut-up poultry, or whole muscle meat products, on other applications in which a material is enclosed in a casing, bag, or netting, such as sealants, adhesives, and explosives, or for any other application in which a bag must be opened in order to insert material to be bagged.
The preferred embodiment of the automated loader of the present invention is shown in elevation schematic view in
Loading tube 44 is a hollow cylinder mounted to frame 42 and configured to receive a whole dressed chicken 60. Preferably, loading tube 44 is about 480 mm in diameter, in order to accommodate large birds such as turkeys. Loading tube 44 has a cutout 62 at its distal end 64, in order to receive poultry from the side, as by conveyor belt, roller tray, or other conveyance, or by manual placement.
Proximal end 66 of loading tube 44 is connected to cone horn 50. Cone horn 50 comprises a plurality of plates 70 forming a cone pointing away from loading tube 44. Preferably, there are three or more plates 70, but two can be used as well.
Plates 70 are connected to loading tube 44 by spring-loaded hinges 72 which are biased radially inward. When pushed from inside loading tube 44, plates 70 spring outward; when pressure is released, plates 70 return to their inward position. Plates 70 are preferably formed so that, when in the biased position, they generally form the shape of a cone. Accordingly, plates 70 are somewhat curved but can be flat as well.
Tube 44, plates 70, and hinges 72, are preferably made of stainless steel. Plates 70 are more preferably made of highly polished stainless steel, even more preferably dimpled, highly polished stainless steel, with the dimples or textures on the inner surface of plates 70. Preferably, the dimpled or textured stainless steel is diamond-shaped textured stainless steel, such as HS Item Number R813000041, available from McNichols Co., Tampa, Fla., or type 4.WL, available from Mechanical Metals, Newtown, Pa. A representative diamond-shaped texture is shown schematically in
In another aspect of the invention, plates 70 are coated on the inner surface with a slippery synthetic substance. Most preferably, the substance is a thermoplastic polymer, preferably polytetrafluoroethylene, most preferably one of the materials sold under the brand name TeflonĀ® by E. I. du Pont de Nemours and Company or its affiliates. Any other slippery substance can be used as well. The use of a slippery synthetic substance will permit bagging of dry poultry. Nevertheless, the apparatus can also be used with wet poultry and therefore will be more useful to users than an apparatus that can only be used with one or the other. Preferably, all plates 70 have coated inner surfaces, but a cone horn 50 could have coated inner surfaces on fewer than all plates 70.
In yet another aspect of the invention, plates 70 are made of steel dimpled on the inner surface and the inner surface is also coated with a slippery synthetic substance as described above.
In yet another aspect of the invention, tube 44 is formed of dimpled steel, with the dimples or textures on the inner surface of tube 44. Additionally, tube 44 can have its inner surface coated with the slippery substance described above. Moreover, tube 44 can be formed of dimpled steel, with the dimples or textures on the inner surface and the inner surface also being coated with a slipper synthetic substance as described above.
Dual cylinder ram system 46 is preferably a pair of dual-action air-operated cylinders, a first ramming cylinder 76 and a second hocking cylinder 78 mounted on frame 42. A conventional ram, using a single air-actuated cylinder, could be used but for faster operation, a pair of air cylinders 76, 78 is preferred in order to have hocking capability. More preferably, dual cylinder ram system 46 comprises ramming cylinder 76 and second hocking cylinder 78 mounted on a ram carriage 80, which is mounted on an electrically-powered conveyor belt 82, which is mounted on frame 42. A compressed air supply 84, either directly from an air compressor or from a plant compressed air supply, operate either the single cylinder or dual cylinders 76, 78. Belt 82 preferably is powered by electrical motor 83.
Bag carriage assembly 48 is preferably as described in the '310 patent or the '636 publication. A stack 32 of bags 20a, 20b, 20c, etc., is mounted to bag carriage assembly 48 and secured thereon by wicket 34. Bag carriage assembly 48 is located as the proximal end 84 of frame 42. Bag carriage 48 raises to present top bag 20a adjacent cone horn 50. An air nozzle 86 directs a stream of compressed air at the lip 88 formed where top panel 24 to top bag 20a terminates, slightly opening lip 88. Bag carriage assembly 48 then moves inside frame 42, pulling top bag 20a over cone horn 50.
When a chicken is placed in cutout 62, bag carriage assembly 48 operates to pull top bag 20a over cone horn 50. Ram system 46 begins to actuate, prompted either manually or by an electronic or analog controller, shown in
At this point, second hocking cylinder 78 actuates and strokes forward. The hocking head 92 on second hocking cylinder 78 encounters the legs 94 of chicken 60 and hocks them. As second hocking cylinder 78 continues to actuate, chicken 60 is pushed against the bottom of top bag 20a and through cone hone 50. As chicken 60 clears cone horn 50, top bag 20a collapses about chicken 60. Now-bagged chicken 60 is taken away, manually or by a conveyor belt, roller tray, or similar conveyance, for further processing, such as weighing and clipping.
Both air cylinders 76, 78 retract and plates 70 return to their biased positions, re-forming the cone shape of cone horn 50. Loading tube 44 is now ready to receive another chicken.
In another aspect of the invention, dual cylinder system 46 further comprises a ram carriage 80 mounted on an electrically-powered conveyor belt 82, as shown in
When a chicken is placed in cutout 62, bag carriage assembly 48 operates to pull top bag 20a over cone horn 50. Belt conveyor 82 rotates to move ram carriage 80 moves from a first position, remote from loading tube 44, to a second position adjacent loading tube 44. This movement begins to push chicken 60 through loading tube 44 as ram head 90 on first ramming cylinder 76 encounters chicken 60. When ram carriage 80 arrives at its second position, first ramming cylinder 76 actuates, continuing to push chicken 60 through loading tube 44 and into cone horn 50. As chicken 60 moves into cone horn 50, plates 70 are pushed outward, further stretching top bag 20a.
At this point, second hocking cylinder 78 actuates. The hocking head 92 on second hocking cylinder 78 encounters the legs 94 of chicken 60 and hocks them. As second hocking cylinder 78 continues to actuate, chicken 60 is pushed against the bottom of top bag 20a and through cone hone 50. As chicken 60 clears cone horn 50, top bag 20a collapses about chicken 60. Now-bagged chicken 60 is taken away, manually or by a conveyor belt, roller tray, or similar conveyance, for further processing, such as weighing and clipping.
Bag carriage assembly 48 returns to its first position, both air cylinders 76,78 retract, and ram carriage assembly 80 returns to its first position. Plates 70 return to their biased positions, re-forming the cone shape of cone horn 50. Loading tube 44 is now ready to receive another chicken.
While preferred embodiments of the present invention are shown and described, it is envisioned that those skilled in the art may devise various modifications of the present invention without departing from the spirit and scope of the appended claims.
This application claims priority from U.S. Patent Application No. 61/619,733, filed on Apr. 3, 2012, from U.S. Provisional Patent Application No. 61/624,720, filed Apr. 16, 2012, and from U.S. Provisional Patent Application No. 61/615,412, filed Mar. 26, 2012, the disclosures of each of which are incorporated herein by reference in their entireties.
Number | Date | Country | |
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61619733 | Apr 2012 | US | |
61624720 | Apr 2012 | US | |
61615412 | Mar 2012 | US |