The present invention relates to product handling systems and, more particularly, to food product handling systems that receive individual product items, accumulate the items into groups and transfer the groups to a packing receptacle.
Systems for packing food product items, and in particular food product items of uniform size and shape, typically consist of a bin or other large container for receiving the individual food items, a device for receiving the food items from the bin and arranging the food items uniformly, and a device for receiving the arranged food items and accumulating the items into groups that are packed in containers. Typical of such systems are systems for packaging frankfurters.
Initially, cooked frankfurters are dumped into a large container. That container includes an opening near the bottom and a feed mechanism for depositing the frankfurters on a conveyer system. The conveyer system includes a plurality of belts positioned to receive the frankfurters and align them in an end-to-end orientation in a single line, or multiple lines of single frankfurters. The belts deposit the frankfurters onto a second belt having a plurality of transverse, raised ribs that receive the frankfurters and orient the frankfurters in a parallel orientation. The second belt deposits the frankfurters into a filler head where the frankfurters are collected into groups of several frankfurters (e.g., five frankfurters in a group) and the groups are then deposited into a receptacle having cavities corresponding to the size of the groups. The cavities are lined with plastic material that is used to package the groups of frankfurters for subsequent sale.
An example of such a filler head systems is shown in U.S. Pat. No. 5,893,259. That patent shows a filler head that receives cooked frankfurters from an input conveyer and collects the franks in a cage formed by individual rails. The frankfurters are retained in the cage by an index pusher. When a predetermined number of franks have been collected, the index pusher is cycled and conveys the franks onto staging area. The franks in the staging area are retained on spring loaded doors. Groups of franks are arranged in the staging area by an index lug chain. When a predetermined number of groups have been accumulated on the staging area, a ram is cycled to displace the groups downwardly through the spring loaded doors into a receptacle for packing.
A disadvantage with such systems is that a ram is required to displace food product items to the receptacle, which adds to the cost and shows the operation of the device. Accordingly, there is a need for a filler head system and method that maximizes the filling of the receptacle. There is also a need for an efficient system and method for rapidly filling a receptacle with multiple layers of food items such as frankfurters.
The present invention is multi-layer food item loading system and method that overcomes the disadvantages of prior art systems and methods by providing an efficient and high-speed system and method for multi-layer food item loading into a receptacle. The method of the invention includes the steps of first collecting food items in a first plurality of groups, each of the groups having a plurality of food items, in a staging area, displacing the first plurality of groups substantially simultaneously downwardly into an accumulating and storage area, thereby forming a plurality of first-layer groups of the food items, collecting in the staging area a second plurality of groups of food items, each of the second plurality of groups having a plurality of food items, displacing the second plurality of groups substantially simultaneously downwardly into the accumulating and storage area such that the second plurality of groups forms a plurality of second layer groups of the food items superposed to the plurality of first layer groups of the food items, thereby forming a plurality of two layer groups of food items, and displacing substantially simultaneously the plurality of two layer groups of food items downwardly into a receptacle in a packing area. The advantage of the method of the present invention is that the presence of the accumulating and storage area allows multiple layers of food items to be collected before being displaced into the receptacle in the packing area. This allows higher reliability of product orientation in the receptacle in the packing area and also allows the step of displacing the multi-layer product into the receptacle to be performed substantially simultaneously with the accumulation of subsequent groups of product in the staging area.
Another advantage of the present invention is that the method utilizes a gravity feed that allows the groups to fall downwardly from the staging area to the accumulating and storage area by gravity and allows the multi-layer groups of product to be displaced by gravity downwardly into the receptacle. This eliminates the need for rams or other devices of prior art filler heads that add to the expense of the associated filler head and require that the accumulating equipment be stopped to allow cycling of the ram.
The system of the present invention includes a pair of sidewardly displaceable rods that support the food items in the staging area and in the accumulating and storage area. When the predetermined number of groups have been accumulated on the staging area by an index lug chain, the rods are cycled by being displaced outwardly to allow the groups of food product items to fall downwardly by gravity to the accumulating and storage area. The groups of food product items remain intact in the accumulating and storage area by dividers that are spaced accordingly. When a predetermined number of layers of food items have been collected in the accumulating and storage area, the rod supports in the accumulating and storage area are displaced sidewardly, allowing the multiple layers of food product to fall downwardly by gravity into the cavities of the receptacle.
The system of the invention also includes pairs of tucking flaps that cycle from a substantially vertical orientation to a substantially horizontal or below-horizontal orientation to maintain the desired arrangement of the food product items as they fall downwardly into the packing receptacle.
Other objects and advantages of the present invention will be apparent from the following description, the accompanying drawings and the appended claims.
The multi-layer food item loading system of the present invention can accommodate a variety of food items of substantially consistent shape. However, the invention will be described with reference to food items such as frankfurters and the like. The invention is adapted to be retrofitted to a conventional frankfurter loading head or like device such as that shown and described in commonly-owned U.S. Pat. No. 5,893,259, the disclosure of which is incorporated herein by reference. Such loading heads or filler heads are used to receive cooked frankfurters or hot dogs from a conveyer, arrange them in groups and place them in receptacles for packaging. The benefit of the filler head of the present invention over the prior art, such as that shown in the aforementioned patent, is that, as shown schematically in
Referring to
As shown in
A powered lug chain system 58 includes a chain 60 having a plurality of lugs 62 that are spaced appropriately to collect the groups 46 of frankfurters displaced sidewardly by the sweep arm 44 to the staging area 48. Although the staging area 48 is shown in
An accumulation and storage area 62 is located directly beneath the staging area 48 and includes a plurality of dividers 66 that are fixed to the filler head frame 67 and positioned to correspond to the spacing between the lugs 62 of the lug chain 60 and hence correspond to the width of groups 52, 54, 56 of frankfurters. The accumulation and storage area 64 also includes retractable rods 20, 22 (see
The structure and operation of the support rods of the present invention is shown in
Consequently, actuation of cylinders 70, 72 draws devises 74 away from the frankfurters, thereby causing link arms 76, 78 to cause arms 80, 82 to pivot rods 50, 51 away from each other to allow frankfurter 106 to fall between the rods downwardly onto rods 20, 22 in the accumulation and storage area 64. Similarly, cylinders 88, 90 in the accumulation and storage area 64 are actuated to cause rods 20, 22 to move away from each other to allow a multi-layer of frankfurters 108 to fall downwardly into receptacle 16 (
As shown in
Computer 110 also receives input signals from proximity switch PS1 (126) that indicates the initial position of the index lug chain 58, proximity switch PS2 (128) that detects the position of the input conveyer 44, proximity switch PS3 (130) that detects the position of the sweep arm 45 and proximity switch PS4 (132) that detects the position of the receptacle 16 in the packing area 69 (see
The operation of the loader head 40 shown in
Once at least two layers 10, 12 of groups of frankfurters are collected in the accumulation and storage area 64, rods 20, 22 are displaced sidewardly by cylinders 88,90 activated by computer 110, allowing the two layers 10, 12 to fall downwardly substantially simultaneously by gravity to the packing area 69. At this point in time, tucking flaps, 32, 34 are oriented vertically so that the two layers 10, 12 of frankfurters of the groups fall downwardly by gravity substantially simultaneously into cavities 14. Once the frankfurters have fallen below the flaps 32, 34, the flaps are actuated to the closed position (shown in phantom in
The operation of the filler head 40 is substantially continuous. However the lug chain 58 operates intermittently, pausing momentarily when groups 52, 54, 56 are positioned as shown in
This application is a continuation of application Ser. No. 12/192,487, filed Aug. 15, 2008, now U.S. Pat. No. 7,757,462, which is a divisional of application Ser. No. 10/730,969, filed Dec. 9, 2003, now abandoned which claims the benefit of provisional application Ser. No. 60/431,850 filed Dec. 9, 2002.
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3238695 | Dugle et al. | Mar 1966 | A |
3250372 | Wagner et al. | May 1966 | A |
3279147 | Garapolo | Oct 1966 | A |
3445986 | Godet | May 1969 | A |
3498022 | Godet | Mar 1970 | A |
3670474 | Vieson et al. | Jun 1972 | A |
4733518 | Griesdorn | Mar 1988 | A |
5388385 | Phelps et al. | Feb 1995 | A |
5893259 | Posge | Apr 1999 | A |
7757462 | Harrison et al. | Jul 2010 | B2 |
Number | Date | Country | |
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20110005170 A1 | Jan 2011 | US |
Number | Date | Country | |
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60431850 | Dec 2002 | US |
Number | Date | Country | |
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Parent | 10730969 | Dec 2003 | US |
Child | 12192487 | US |
Number | Date | Country | |
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Parent | 12192487 | Aug 2008 | US |
Child | 12839820 | US |