The present application relates to the creation of batches of items, such as pieces of foodstuffs. The invention allows the items which make up the batch to be packaged together.
In the food industry, pieces of food are often packaged together in a single pack. U.S. Pat. No. 6,799,684 discloses a counting and portioning system which counts discrete articles that conform to predetermined specifications into lots having a predetermined number of articles or a target volume. The system includes at least one portioning bin positioned to receive articles from a conveyor. The at least one bin has at least first and second outlet gates for emptying articles into separate respective first and second locations. A scanner detects and maintains a count of articles that are received in the at least one portioning bin and fall within the predetermined specification. The detector unit generates an out-of-specification signal when an article or group of articles received in the at least one portioning bin falls outside the predetermined specification. A control unit causes the first outlet gate to open when the count or volume of articles is equal to the predetermined number and causes the second outlet gate to open in response to receipt of an out-of-specification signal. The profile/volume signature for every part scanned and delivered from the infeed to the scanner is stored.
However, some situations in the food industry are such that U.S. Pat. No. 6,799,684 is inadequate. For example, when pork chops are packaged, the individual pork chops which make up the batch within a pack are often placed by hand on a plastic or polystyrene tray which is then wrapped. This is done manually because pork chops are quite difficult to handle in an automated system, and whilst some processes have been automated, it has previously been found necessary for the individual chops to be processed extensively by hand so as to identify chops which are misshapen or which should be rejected for some other reason. On a production line, it is possible for off-cuts of meat to be present which should not be included in the tray. For example pieces of meat which are at the end of a primal cut of pork loin which is cut up might need to be removed from the production line without being packed. A primal cut is a larger section of an animal carcass which is cut up to form cuts which are sold in shops. For example, a pork loin is cut up to form a number of cuts which are sold in shops including chops, cutlets and loin. Additionally, the meat packaging industry has had difficulty in putting individual pieces of meat together to form a batch on a tray in such a way that the pieces of meat are placed in the tray accurately and with some regard to the presentation of the pieces of meat within the pack.
As mentioned above, the chops 1 are often placed in the tray 2 by hand in order to ensure their correct arrangement within the tray, and to remove any off-cuts or other pieces of meat which are not appropriate to include in the pack 3.
Some automated machinery has been proposed. For example, it has been proposed to use a retractable conveyor in order to load items on to a tray. An example of such a machine would be the QuickLoader made by Marel hf. The QuickLoader is a servo-controlled retractable conveyor which loads items into trays or onto another conveyor, and is able to position the item in the tray or on the other conveyor accurately. The retractable conveyor includes a region of conveyor which, on retraction, is quickly removed from beneath the item which it is transporting. This allows the item to drop, and because the item is positioned substantially above the position it is intended to put the item, it drops into the correct position. However, it is only known to use such a machine so as to drop items into a tray one at a time, and by dropping them into the tray from slightly different positions, the overlapping arrangement shown in
According to a first aspect of the present invention, apparatus arranged to combine a plurality of items into a batch having a set number of items, comprises a production line; a source of items which is arranged to place the set number of items together on the production line to form batches, characterised in that the source additionally supplies items to the production line which are not suitable to be included in the batch such that, if a batch is incomplete when an unsuitable item is supplied, that batch is advanced on the production line as a partial batch without the non-batch item being added to it, in that the source is arranged to create a remainder batch after the non-batch items have been added to the production line in which the remainder batch includes the number of items that must be added to the partial batch to make a full batch, and in that the apparatus includes a combiner arranged to add the remainder batch to the partial batch to make up a full batch.
Joining a partial batch and a remainder batch to form a full batch is an important advantage in this invention as a result of the presence of non-batch items on the production line. In the preferred embodiment, this is a result of off-cuts being placed on the production line which are not to be included as part of the batches.
Also in the preferred embodiment, the source of items includes a source controller which is arranged to control the advance of the production line. It is preferred that the source controller is arranged to control the source of items to create remainder batches, when required, containing the number of items that must be added to a partial batch to make a full batch. Thus, the source controller is important in the preferred embodiment to control the apparatus to allow the combining of the partial and remainder batches.
Preferably, the source controller is arranged to generate a partial batch signal for directing to the combiner which indicates at least one of a) the number of items making up a partial batch, and b) the number of items making up a remainder batch. This allows the combiner to operate in such a way that a full batch can be made up from a partial batch and a remainder batch.
It is preferred that the source controller is arranged to allocate an electronic label to each item, the label being held within the source controller, the label for non-batch items being distinguishable from other labels. In this way, the non-batch items can be distinguished from batch items.
It is preferred that the source of items is a source of foodstuff items, and in particular a portioning machine which includes a knife arranged to cut a bulk piece of foodstuff into portions which constitute the items. Most preferably, the portioning machine includes a mould arranged to retain the bulk piece of foodstuff as it is portioned, and this may be arranged to cut a primal cut of meat into portions.
In the preferred embodiment, the combiner includes a retractable conveyor which is a very effective piece of apparatus ideally suited for combining partial and remainder batches. The combiner preferably includes a conveyor controller arranged to control the conveyor to add the remainder batch to the partial batch to form a full batch. The conveyor controller is preferably connected to the source controller to receive the partial batch signal, thereby achieving an interaction between the two controllers.
It is preferred that the conveyor controller is further arranged to control the conveyor to add the remainder batch to the partial batch so that the two batches are aligned as if they were formed as a single batch.
To remove non-batch items, the conveyor controller may be arranged to control the conveyor so as to run those items off its end away from the partial batch, or an arm is included for movement across the path of the items, operation of which serves to remove non-batch items from the apparatus.
The combiner preferably includes a sensor arranged to detect the position of an item on the conveyor. This allows for accurate positioning of the item when combining batches, or placing batches in a tray or otherwise positioning a batch, and also facilitates the removal of non-batch items from the conveyor.
According to a second aspect of the invention, a method of combining a plurality of items into a batch having a set number of items, comprises placing the set number of items together onto a production line to form a batch; characterised by supplying non-batch items which are not suitable for inclusion within the batch onto the production line, advancing the batch on the production line as a partial batch without the non-batch item being added to it when a batch is not complete, creating a remainder batch after the non-batch items have been added to the production line, in which the remainder batch includes the number of items that must be added to the partial batch to make a full batch, and adding the remainder batch to the partial batch to make up a full batch.
It is preferred that the method includes the step of counting the number of items in a batch, and if the batch is partial, calculating the number of items to be included in the remainder batch which, when added to the partial batch will make a full batch. This facilitates the identification of partial batches, and the creation of remainder batches.
It is also preferred that the method further includes generating a partial batch signal indicating at least one of a) the number of items making up a partial batch, and b) the number of items making up a remainder batch. The partial batch signal can be used to control the generation of a remainder batch and/or to allow the combining of the partial and remainder batch.
It is preferred that the method also includes the allocating within an electronic system of an electronic label to each item, the label for non-batch items being distinguishable from other labels.
In one of the preferred embodiments which will be described in detail in the following text. It is preferred that the items are foodstuff items, and more preferably that the step of placing the set number of items together onto a production line to form a batch includes cutting a bulk piece of foodstuff into portions which constitute the items. Most preferably, the bulk piece of foodstuff is a primal cut of meat. However, the invention is equally applicable to other applications/configurations as will become apparent from the discussion of other embodiments following this detailed discussion of a configuration in combination with a particular portioning machine.
The step of adding the remainder batch to the partial batch is preferably done by use of a retractable conveyor, which is highly effective at positioning items together. It is also preferred that the partial batch signal is received, and that this facilitates the adding of the remainder batch to the partial batch so as to be aligned as if they were formed as a single batch.
In order to remove non-batch items, the conveyor can be controlled so as to run non-batch items off its end away from the partial batch, or an arm can be arranged to sweep an item off the conveyor.
It is preferred that the set number of items making up a full batch is at least three so that at least one of the partial batch and the remainder batch includes more than one item.
According to a third aspect of the invention, a system for combining a plurality of items into a batch having a set number of items comprises: a source of items arranged to identify when a non-batch item which is not suitable to be included in a batch is placed on a production line; a counter arranged to count the number of items in a partial batch that is created when a batch is incomplete; a source controller arranged to control a source of the items to subsequently create a remainder batch having the number of items required which, when added to the partial batch, will make the partial batch up to a full batch, wherein the source controller further generates a partial batch signal which is used to control a combiner to add the remainder batch to the partial batch.
An embodiment of the present invention will now be described by way of example only and with reference to the drawings in which:
In this embodiment, it should be understood that it is an aim to produce a pack 3 of slices of meat, in this case of chops 1 in a tray 2 typically made from plastic or polystyrene. It is intended that the chops are placed in the tray 2 automatically so as to require minimal manual intervention. In the present invention, the tray 2 shown in
In this embodiment, a portioning machine 4 is used to slice a primal cut of meat into chops and to place the chops onto a conveyor within the portioning machine 4. The portioning machine 4 will be described in more detail below in connection with
In
A portioning machine 4 is shown in
It will be appreciated that, at the end of a primal cut of meat which is to be sliced, the last chop is unlikely to be of the same thickness as the other chops because its thickness will depend on how much is left after the other chops have been cut. This makes the final chop unacceptable to be included in the pack 3 because it is not consistent with the other chops. Consequently, when the last chop is produced, this must not be included in any of the batches created by the portioning machine 4. The presence of the last chop or end piece of the primal cut of meat is recognised by the position of the piston. If the distance of the piston from the knife 12 is less than the thickness of the acceptable chops, then the end piece has been reached. Consequently, the portioning conveyor 10 will advance by a relatively large distance before the end piece of the primal cut of meat is put on the conveyor 10. However, the previous batch of chops might not have been completed. For example, the previous batch might only contain two pieces of meat, and therefore constitute a partial batch. This partial batch is passed forward by the portioning conveyor to a retractable conveyor 5 which is described below, and the portioning machine must ensure that the next chops which are created by the portioning machine must be a remainder batch in order to make the partial batch up to a full batch. The portioning machine 4 includes a portioning controller 13 which can be seen in
The portioning controller 13 is important since it controls the output of the portioning machine 4. Before the portioning machine 4 is used, it must be set with the number of pieces of meat which will make up a full batch, and might also be set to include other characteristics of the meat, such as their thickness and whether or not end pieces of the primal cut of meat may be included. The portioning controller 13 might include registers to hold settings concerning the number of pieces of meat in each batch and the thickness, and whether the end pieces may be included in the batches. Further, the portioning controller 13 electronically labels the slices of meat. The first slice and the last slice of a primal cut are given different electronic labels to the other slices of meat. By labels, these are identifying labels contained within the computer memory, and not labels which are applied directly to the meat. The portioning controller 13 can set up the machine such that slices with a label different to the normal or default one are either swept off the belt by an arm, or are run off the end of the conveyor. The portioning controller 13 must also be capable of counting the number of chops that are sliced from the primal cut so that, when a full batch is produced, the portioning conveyor 10 can be advanced ready for the commencement of the next batch, and also to count the number of slices of meat which are cut up until the presence of an end piece is determined. When a remainder batch is created, the portioning controller 13 ensures that the remaining number of pieces of meat are cut to make the remainder batch such that the remainder batch, when added to the partial batch makes a full batch.
When the next primal cut of meat is placed into the mould 7, the knife 12 begins to operate and to cut chops from the piece of meat again. If the leading edge of the primal cut of meat is not appropriate for creating chops for the pack 3, for example because it is unevenly cut or shaped, then this also will be kept separate from a remainder batch which is cut from the piece of meat immediately thereafter. Thus, the portioning conveyor 10 will hold a series of complete batches of chops from the first piece of meat, it might then have a partial batch from the first primal cut of meat followed by the end piece of the first primal cut of meat, perhaps the leading end chop from a second primal cut of meat followed by a remainder batch to make up the partial batch to a full batch.
When an item is positioned on the transport area 23 of the belt 20 in the retraction region 25, the belt will be retracted very quickly, and the item which was on the belt 20 will drop vertically. By locating a tray or another conveyor beneath the retraction region, the item can be moved from the retractable conveyor 5 to another location. By adjusting the longitudinal position of the item on the belt immediately before it is retracted, accurate control can be had of exactly where the item is placed. Referring again to
The retractable conveyor 5 is arranged to take the chops from the portioning machine 4 and to place them in trays 2. The portioning conveyor 10 is positioned next to the belt 20 of the retractable conveyor 5 so that the chops will be fed to the belt 20 by the portioning conveyor. When a full batch reaches the retraction region 25 of the retractable conveyor 5, it is accurately positioned so that, when the belt 20 is retracted, it will drop into a tray 2 immediately beneath it. However, when a partial batch is supplied to the belt 20, the chops must be positioned in the tray 2 in a position such as is shown in
The retractable conveyor 5 includes a sensor 27 arranged to detect the presence of any items on the belt 20. The sensor 27 in this embodiment is an optical sensor in which a beam of light is directed transversely across the belt 20 towards a light detector. The sensor 27, which includes both the source of light and the light detector, are arranged just above the belt so that any item passing along it is detected. Thus, batches, partial batches, remainder batches and off-cuts which are generated by the portioning machine 4 and which are passed to the retractable conveyor 5 can readily be detected.
The retractable conveyor 5 includes a conveyor controller 26 which is not shown in
It will also be appreciated that, while the sensor 27 in this instance is an optical system, other sensors are also possible, and this application is not limited to the use of the sensor shown in this embodiment.
It will be appreciated from the embodiment described above that the arrangement of the chops will depend on what is required by the customer. In this case, each batch is made up of four chops in an overlapping arrangement within a tray. Other customers might require more or less chops within each tray, and some might prefer the chops to lie side by side in the tray without any overlap at all. Other customers might require each chop to lie on top of the previous one without any overlap at all. The present invention is not limited to delivering items in an overlapping manner, but simply one which is suitable for packaging. What is important is the ability of the system to make partial batches up to full batches. It is expected that this invention has particular application where a batch includes at least three items such that at least one of the partial or remainder batches includes more than one item.
Additionally, this invention is not restricted simply to pork chops, or even to meat products, but can be applied equally well to other items. This invention has particular application to foodstuffs. Other types of sliced meats can be processed besides chops, and meat from other animals can also be processed. Additionally, other types of foodstuffs such as fish can be processed in this way, and the foodstuff might even be frozen. It could even be applied to non-foodstuff applications.
In the embodiment described above, a portioning machine is described. In the case of meat production, this is highly advantageous, but in other embodiments, the portioning machine can be replaced by a suitable source of items to be packed. It does not need to cut individual items from a bulk item in the way described in the embodiment described above, although there are significant advantages in doing so for meats. Additionally, the retractable conveyor used in the preferred embodiment, whilst being highly advantageous in that embodiment is not, in itself, essential. Any machine which is able to combine a remainder batch and partial batch to make up a full batch would be suitable.
As the reader should appreciate by now, the present invention is applicable to many configurations, not limited by being coupled with a portioning machine. The portioning machine discussed above is simply a detailed example provided to properly explain and disclose the features of the present invention. The portioning machine discussed above should be considered to a one possible front-end of many which can be coupled to the present invention. The following short description of other possible embodiments demonstrates the flexibility of adapting the present invention to a variety of configuration and scenarios.
In one of the preferred embodiments, the front-end of the present invention is an in-feed/sorting apparatus receiving as an input hand carved T-Bone steaks from multiple cutters. The best meat is destined to a demanding high-paying customers were the meat quality is judged by plurality of characteristics. An apparatus might pre-select items together based on some criteria or characteristics, for example weight of individual pieces, thickness, or color, or perhaps a combination thereof. Lets take for example a scenario were the goal is to select together 6 12 oz T-bone steaks in a package, all having the same shade of red. The shade of red is slightly different from one carcass to another. Therefore, the batching process becomes a bit more complicated. In this scenario it may become necessary to make partial batches which can be completed at a later time, cloaser to the packing area. Clearly the present invention solves the problem of packing the partial batches of this scenario.
In another preferred embodiment, the scenario is a bakery and the front-end of the present invention is conveyor with pastry or rolls with at least one substantially flat surface. The pastry may come in multiple side by side streams and be stacked by the present invention by dropping them into a suitable packages. Whether the pastry is delivered in a single stream or multiple side by side streams is not important. The fact remains, that when some kind of pre-sorting is performed and the portions are in some partially completed stage, the present invention applicable to solve the problem and pack complete batches by combining partial batches.
In another preferred embodiment, the scenario is in a chicken processing plant. 18 The front end is an apparatus which cuts chicken breasts into chicken strips and supplementary part. At one end the apparatus is loaded with whole chicken breasts and returns two products at the other end, the end attaching with the present invention. These products are, well formed chicken fingers 21 which are arranged in groups, and a supplementary product. These two products are interleaved such that every other product is a group of chicken fingers, and the other group is the supplementary product. The supplementary group can, in one embodiment, be removed from the apparatus by the means of a board which reaches across the conveyor and guides or sweeps the supplementary product of before it reaches the input of the present invention. In that way, portions can be easily built up. A problem arises when there is a gap in product delivery, for example if the worker is not quick enough to load the apparatus and the chicken breast is loaded into only one of the two moulds 20 in the loading unit. In those cases the present invention solves the problem quickly by combining partial batches.
In yet another preferred embodiment is the scenario, the scenario is a fish processing plant. The front end in this case fillet skinner and the object to arrange the fillets side by side in a partially overlapping fashion in some appropriate packages. The weights of the batches need to be within some agreed upon limits. In this case a consecutive five fillets may not fit within the weight limit agreed upon with the customer. But, the first three and sixth and seventh fillets fit perfectly. In this case the present invention starts a first batch with the first three fillets, and a second batch with fillets four and five. Next it completes the first batch by adding fillets six and seven to the batch. Depending on the characteristics of the next group of fillets the present invention might either start a third batch or complete the second batch.
Clearly, the present invention is useful in myriad of different applications. Wherever a batching process might benefit from batching by means of partial batching; whether it be to speed up the batching process, because of missing items, or any such situation were the expected flow of items is disturbed, the present invention is useful and solves the problem.
In many applications the present invention might be capable of identifying partial batches and full batches. This can be accomplished, for example, by machine vision and image processing system. Another system might use a dynamic scale to determine the size of the partial batches. Yet another system might measure the length of the partial batch on the conveyor and so on. In yet another situations the present invention might receive these information from the from end system, and thus not need to process any intelligence to identify different batch sizes.
Number | Date | Country | Kind |
---|---|---|---|
8600 | Jan 2007 | IS | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/IS08/00002 | 1/31/2008 | WO | 00 | 1/11/2010 |