Patent Publication Number: US-2021171226-A1

Title: Package forming systems and related methods

Description:
RELATED APPLICATION 
     The presently disclosed subject matter claims the benefit of U.S. patent application Ser. No. 15/684,887, filed Aug. 23, 201, which in turn claimed the benefit of U.S. Provisional Patent Application Ser. No. 62/378,432, filed Aug. 23, 2016, the disclosures of both patent applications are incorporated herein by reference in its entirety. 
    
    
     TECHNICAL FIELD 
     The present subject matter relates to shipping package forming apparatuses, systems, and related methods. In particular, the present subject matter relates to apparatuses and systems that form and aid in forming packages, such as envelopes, around physical items that are being shipped in the packages. 
     BACKGROUND 
     The advent of online purchasing, through such e-commerce website as Amazon or online box stores, such as Walmart online, have created a need for packaging items that are bought by a customer online and then shipped from a distribution center to the customer. These distribution centers must process thousands of items of various sizes. 
     These items include all of the various that are sold in mass on these e-commerce websites. Such items can include, but are not limited to: jewelry, such as rings, bracelets, necklaces, key rings, etc.; utility items, such as knives of various sizes, tools, etc.; electronics, such as cellular phones, tablet devices, televisions, computers, flash drives or other fobs, etc.; personal care items, such as make-up items, moisturizers and creams, razors, brushes, combs, hair dryers, etc.; apparel, such as dresses, pants, skirts, shorts, shirts, belts, shoes, socks, etc.; home furnishings, such as pillows, sheets, fabric coverings, etc.; toys of various sizes; and books of various sizes. 
     Due to the varied sizes of the items being processed in these distribution centers, packaging these items can be problematic. Having to separately package items can be labor intensive and time-consuming. Such problems can be partially addressed by separately items to be shipped from a fulfillment center by size. For smaller items, known as “smalls,” such as books, jewelry, apparel, etc., envelope forming machines can be used to form envelope packages around the smaller items. These envelope forming machines allow placement of the smaller items between two sheets of material that for the envelope that will form the packing around the smaller item. The envelope forming machine can press and seal the sides and press, seal, and cut the ends to form the package around the smaller item. 
     While these envelope forming machines can speed up the packaging and shipping process, the current envelope forming machines still have many drawbacks that cost processing time, can raise labor costs, and can hurt the quality of the packages being formed. For example, with current envelope forming machines, even slight variations in height of the items can misalign the sheets of material that can in turn cause weak seals along the sides of the package, and depending on the product used to form the sealed sides, can expose adhesives, sealants, or other tacky substances to exterior of the package. Additionally, due to the mechanisms used to cut and seal the ends of the package, weakened seals are often formed leading to a tendency for one or both ends of the package to open unintentionally, for example, during shipping. 
     As such, a need exists, for example, for shipping package forming apparatuses and systems that can more effectively form packaging around a wider range of sizes of items to be shipped, while also providing sturdier packages that will not unintentionally open during shipping. 
     SUMMARY 
     The present subject matter provides package forming apparatuses, systems, and related methods. In particular, the present subject matter relates to apparatuses and systems that form and aid in forming packages, such as envelopes, around physical items that are being shipped in the packages. Methods related to the manufacture and use of the shipping package forming apparatuses and systems as disclosed herein are also provided. 
     Thus, it is an object of the presently disclosed subject matter to provide package forming apparatuses and systems as well as methods related thereto. While one or more objects of the presently disclosed subject matter having been stated hereinabove, and which is achieved in whole or in part by the presently disclosed subject matter, other objects will become evident as the description proceeds when taken in connection with the accompanying drawings as best described hereinbelow. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       A full and enabling disclosure of the present subject matter including the best mode thereof to one of ordinary skill in the art is set forth more particularly in the remainder of the specification, including reference to the accompanying figures, in which: 
         FIG. 1A  illustrates a schematic view looking in a machine direction down a travel path of a product being packaged in an embodiment of a package forming system according to the present subject matter as a package is being formed around the product; 
         FIG. 1  B illustrates a schematic view looking in a cross-machine direction perpendicular to a travel path of a product being packaged in an embodiment of a package forming system according to the present subject matter as a package is being formed around the product; 
         FIG. 2  illustrates a schematic view of an embodiment of a package forming system according to the present subject matter; 
         FIG. 3A  illustrates a front top perspective view of another embodiment of a package forming system according to the present subject matter; 
         FIG. 3B  illustrates a side top perspective view of the embodiment of the package forming system according to  FIG. 3A ; 
         FIG. 3C  illustrates a rear top perspective view of the embodiment of the package forming system according to  FIG. 3A ; 
         FIG. 3D  illustrates a side view of the embodiment of the package forming system according to  FIG. 3A ; 
         FIG. 3E  illustrates an opposing side view of the embodiment of the package forming system according to  FIG. 3A  to the view in  FIG. 3D ; 
         FIG. 3F  illustrates a side bottom perspective view of the embodiment of the package forming system according to  FIG. 3A ; 
         FIG. 3G  illustrates a side view of the embodiment of the package forming system according to  FIG. 3A  with an embodiment of top rolling positioning arms for holding a roll of sheet material in an upper run position; 
         FIG. 3H  illustrates a side view of the embodiment of the package forming system according to  FIG. 3A  with the top rolling positioning arms for holding a roll of sheet material show in  FIG. 3G  in a lowered loading position; 
         FIG. 4A  illustrates a top perspective view of an embodiment of an adjustable table that can be used in the embodiment of the package forming system according to  FIG. 3A ; 
         FIG. 4B  illustrates a front view of the embodiment of the adjustable table according to  FIG. 4A ; 
         FIG. 4C  illustrates a front side perspective view of the embodiment of the adjustable table according to  FIG. 4A ; 
         FIG. 4D  illustrates a front side perspective view of the embodiment of the adjustable table according to  FIG. 4A ; 
         FIG. 4E  illustrates a side bottom perspective view of the embodiment of the adjustable table according to  FIG. 4A ; 
         FIG. 4F  illustrates an exploded view of the embodiment of the adjustable table according to  FIG. 4A ; 
         FIG. 5A  illustrates a schematic view of an embodiment of a package forming system according to the present subject matter with an embodiment of a guide tension roller secured to an adjustable table (not shown) in a lower position; 
         FIG. 5B  illustrates a schematic view of the embodiment of the package forming system according to  FIG. 5A  with the guide tension roller secured to the adjustable table (not shown) in an upper position; 
         FIG. 6  illustrates a front perspective view of an embodiment of a controller that can be used in the embodiment of the package forming system according to  FIG. 3A ; 
         FIG. 7A  illustrates a front view of an embodiment of a weigh station that can be used in the embodiment of the package forming system according to  FIG. 3A ; 
         FIG. 7B  illustrates a side view of an embodiment of the weigh station according to  FIG. 8A ; 
         FIG. 8A  illustrates a side view of an embodiment of a printer station that can be used in the embodiment of the package forming system according to  FIG. 3A ; 
         FIG. 8B  illustrates a side rear perspective view of an embodiment of the printer station according to  FIG. 9A ; 
         FIG. 9A  illustrates a top front perspective view of an embodiment of a package forming system according to  FIG. 3A  with an embodiment of a laser guide thereon and an embodiment of a product on a product pathway of the package forming system; 
         FIG. 9B  illustrates a close-up view taken about the circled portion A 1  in  FIG. 9A  showing the laser lines projected from the laser guide; 
         FIG. 9C  illustrates a top view of the entry way of the product pathway of the package forming system according to  FIG. 9A ; 
         FIG. 10A  illustrates a top side perspective view of an embodiment of a height sensor that can be used in the embodiment of the package forming system according to  FIG. 3A ; 
         FIG. 10B  illustrates a side view of the embodiment of the height sensor according to  FIG. 9A ; and 
         FIG. 11  illustrates a rear side perspective view of an embodiment of a roll axle that can be used in the embodiment of the package forming system according to  FIG. 3A . 
     
    
    
     Repeat use of reference characters in the present specification and drawings is intended to represent the seam or analogous features or elements of the present subject matter. 
     DETAILED DESCRIPTION 
     Reference now will be made to the embodiments of the present subject matter, one or more examples of which are set forth below. Each example is provided by way of an explanation of the present subject matter, not as a limitation. In fact, it will be apparent to those skilled in the art that various modifications and variations can be made in the present subject matter without departing from the scope or spirit of the present subject matter. For instance, features illustrated or described as one embodiment can be used on another embodiment to yield still a further embodiment. It is to be understood by one of ordinary skill in the art that the present discussion is a description of exemplary embodiments only, and is not intended as limiting the broader aspects of the present subject matter, which broader aspects are embodied in exemplary constructions. 
     Although the terms first, second, right, left, front, back, top, bottom, etc. may be used herein to describe various features, elements, components, regions, layers and/or sections, these features, elements, components, regions, layers and/or sections should not be limited by these terms. These terms are only used to distinguish one feature, element, component, region, layer or section from another feature, element, component, region, layer or section. Thus, a first feature, element, component, region, layer or section discussed below could be termed a second feature, element, component, region, layer or section without departing from the teachings of the disclosure herein. 
     Similarly, when a feature or element is being described in the present disclosure as “on” or “over” another feature or element, it is to be understood that the features or elements can either be directly contacting each other or have another feature or element between them, unless expressly stated to the contrary. Thus, these terms are simply describing the relative position of the features or elements to each other and do not necessarily mean “on top of” since the relative position above or below depends upon the orientation of the device to the viewer. 
     Embodiments of the subject matter of the disclosure are described herein with reference to schematic illustrations of embodiments that may be idealized. As such, variations from the shapes and/or positions of features, elements or components within the illustrations as a result of, for example but not limited to, user preferences, manufacturing techniques and/or tolerances are expected. Shapes, sizes and/or positions of features, elements or components illustrated in the figures may also be magnified, minimized, exaggerated, shifted or simplified to facilitate explanation of the subject matter disclosed herein. Thus, the features, elements or components illustrated in the figures are schematic in nature and their shapes and/or positions are not intended to illustrate the precise configuration of the subject matter and are not necessarily intended to limit the scope of the subject matter disclosed herein unless it specifically stated otherwise herein. 
     It is to be understood that the ranges and limits mentioned herein include all ranges located within the prescribed limits (i.e., subranges). For instance, a range from about 100 to about 200 also includes ranges from 110 to 150, 170 to 190, 153 to 162, and 145.3 to 149.6. Further, a limit of up to about 7 also includes a limit of up to about 5, up to 3, and up to about 4.5, as well as ranges within the limit, such as from about 1 to about 5, and from about 3.2 to about 6.5. 
     The term “thermoplastic” is used herein to mean any material formed from a polymer which softens and flows when heated; such a polymer may be heated and softened a number of times without suffering any basic alteration in characteristics, provided heating is below the decomposition temperature of the polymer. Examples of thermoplastic polymers include, by way of illustration only, polyolefins, polyesters, polyamides, polyurethanes, acrylic ester polymers and copolymers, polyvinyl chloride, polyvinyl acetate, etc. and copolymers thereof. 
     “Cohesive” or “cohesives” as used herein means substances that can be applied to a substrate and once cured generally only bond or adhere to itself and not to other non-adhesive materials or substances. Thus, cohesives are substances that, once applied and cured, generally only adhere or bond together to form a seal when a portion of the cohesive come in contact with another portion of the cohesive and generally does not form a seal with other non-adhesive materials or substances with which the cohesive comes into contact. Cohesives, as used herein, are often referred to in the industry as self-seal, cold seal, or cold seal adhesives. 
     “Adhesive” or “adhesives” as used herein means substances that are used to secure materials, such as substrates, together by binding or adhering to the materials with which they come in contact and resist separation of the materials even under force. 
     Thus, adhesives are substances that have the ability to secure together non-similar materials or substances by binding and/or adhering to the non-similar materials or substances. 
     “Pressure-sensitive adhesives” as used herein means adhesives that can have binding or adhesion or enhanced binding or adhesion to non-similar materials or substances when placed under some level of pressure. 
     “Product” as used herein means one or more physical items that are being packaged on the package forming systems and apparatuses disclosed herein. The term “product” can include, but are not limited to such items as: jewelry, such as rings, bracelets, necklaces, key rings, etc.; utility items, such as knives of various sizes, tools, etc.; electronics, such as cellular phones, tablet devices, televisions, computers, flash drives or other fobs, etc.; personal care items, such as make-up items, moisturizers and creams, razors, brushes, combs, hair dryers, etc.; apparel, such as dresses, pants, skirts, shorts, shirts, belts, shoes, socks, etc.; home furnishings, such as pillows, sheets, fabric coverings, etc.; toys of various sizes; automobile and machinery parts, such as nuts, bolts, bushings, filters, bearings, etc.; tools and hardware, such as screws, nails, screwdrivers, wrenches, pliers, hammers, etc.; and books of various sizes. Thus, the term “product” as used herein can be synonymous and can be used interchangeably with the phrase “one or more products.” 
     “Sheet material” as used herein means one or more items or materials are used to create packages and that can be packed or bundled together or processed in some manner to form a unit for transport. 
     The present subject matter discloses shipping package forming apparatuses, systems, and related methods. In particular, the present subject matter discloses apparatuses and systems that form and aid in forming packages, such as envelopes, around physical items that are being shipped in the packages. The presently disclosed shipping package forming apparatuses and systems have features that improve the forming of the package around items to be shipped. For example, in some embodiments, the shipping package forming apparatuses can ensure proper placement of the item relative to the sides of the package and can ensure proper alignment of the sides of the sheet material that form the sides of the package so that the sides of the package form a stronger seal. In some embodiments, the shipping package forming apparatuses can ensure proper sealing of packages across the ends of the packages that for stronger seals at the ends of the formed packages. In some embodiments, a more efficient manner of cutting the sheet material to form the ends of the package can be provided. 
     Referring to  FIGS. 1A and 1B , schematics of packages E 1  and/or E 2  are shown being formed around products P 1  and/or P 2 . The packages E 1  and/or E 2  are being formed by two sheets being pressed together along the sides as shown in  FIG. 1A  with packages E 1  and E 2  being pressed together at either end as shown in  FIG. 1B . In particular, each of the packages E 1  and/or E 2  can be formed by a top sheet material TS and a bottom sheet material BS that can be pressed together by nip rollers as explained further below. 
     The top and bottom sheet materials TS, BS can be a variety of sheeting materials depending on the desired parameters of packaging. For example, in some embodiments, the top and bottom sheet materials TS, BS can comprise a suitable paper or other wood pulp product. In some embodiments, the top and bottom sheet materials TS, BS can comprise a paper with a cushioned backing secured thereto to for a cushioned interior of the packaging when the top and bottom sheet materials TS, BS are joined together. In some embodiments, the top and bottom sheet materials TS, BS can comprise a nonwoven fabric such as a spunbonded fabric, a meltblown fabric, or the like. In some embodiments, the top and bottom sheet materials TS, BS can comprise a polymeric film. For example, the top and bottom sheet materials TS, BS can comprise a thermoplastic film in some embodiments. The thermoplastic film can comprise a polyolefin film such as a polypropylene film, for instance. Alternatively, the thermoplastic film can comprise at least one of a polyethylene film, a nylon film, or a polyester film. In some embodiments, the top and bottom sheet materials TS, BS can comprise tri-layered films or other multi-layered films, such as nine-layered films. 
     In some embodiments, to join the top and bottom sheet materials TS, BS together, one or both of the top and bottom sheet materials TS, BS can have an adhesive on an interior side, such as pressure sensitive adhesives. In some embodiments, to join the top and bottom sheet materials TS, BS together, each of the top and bottom sheet materials TS, BS can have an interior side that includes cohesive layer. The cohesives that can be used to form the cohesive layer can have different bond strength depending on the desired parameters of the respective packaging sheet. 
     For many applications, the cohesives that can be used to form the cohesive layer can have a high bond strength. While, depending on the bond strength, cohesives can slightly tack or stick to other non-adhesive material, cohesives generally only provide a strong seal to themselves. When the cohesive layer coated on the top and bottom sheet materials TS, BS comes into contact with itself or the other sheet material coated with the same cohesive, the bond can result by applying appropriate pressure to the sheet materials with the contacted cohesives. Thus, through the use of the cohesive layer, the top and bottom sheet materials TS, BS can be bonded to itself or to the other sheet material. In some embodiments, the cohesive can comprise a water-based cohesive. In some embodiments, the cohesive can comprise a solvent-based cohesive. Examples of cohesives that can be used to more or less affect include COSEAL™ and certain ROBOND™ CS, which are supplied by the Dow Chemical Company, and the cohesives used in CRO-NEL® and NYVEL® products, which are produced and sold by Automated Solutions, LLC, to name a few. 
       FIG. 1B  is cross-sectional view taken in a cross-machine direction CD of the package E 1  being formed around the product P 1  showing the joining of the sides of the package E 1  being formed. Once a product P 1 , which can include one or more items, is to be shipped, the product P 1  can be placed on the bottom sheet material BS within a package forming system or apparatus (not shown in  FIGS. 1A and 1B ). The bottom sheet material BS can act as a conveyor through the package forming system or apparatus. The top sheet material TS and the bottom sheet material BS can converge between the nips of two sets of rollers SR 1  and SR 2  on either side. The sets of rollers SR 1  and SR 2  can comprise pressurized or weighted rollers that can create a great enough pressure to bond the cohesives on the top and bottom sheet materials TS, BS that are facing each other. The first set of rollers SR 1  can include a top roller SRT 1  and a bottom roller SRB 1  on a first side. The second set of rollers SR 2  can include a top roller SRT 2  and a bottom roller SRB 2  on a second side. A first side of the top sheet material TS and a first side of the bottom sheet material BS converge together and run between the nip of the top roller SRT 1 , and bottom roller SRB 1  to join the top sheet material TS and the bottom sheet material BS together on the first side. Similarly, a second side of the top sheet material TS and a second side of the bottom sheet material BS converge together and run between the nip of the top roller SRT 2  and bottom roller SRB 2  to join the top sheet material TS and the bottom sheet material BS together on the second side. 
     Ideally, it is desirable to have the product P 1  align with the sets of rollers SR 1  and SR 2  with the product P 1  so that a center line CL (shown in dashed lines) of the product P 1  can pass through, or proximal to the aligned nips of the sets of rollers SR 1  and SR 2 . In this manner, the sides of the top and bottom sheet materials TS, BS can more closely align with each other to provide a better seal on the sides of the package. For example, it can be desirable to have the angles formed between the top sheet material TS and the centerline CL and between the bottom sheet material BS and the centerline CL to be the same or substantially similar. 
     Similarly, a cross seal device, such as a set of rollers CR can be used to seal the ends of the packages E 1  and E 2  as the respective package is being formed as shown in  FIG. 1B . The set of rollers CR can comprise pressurized or weighted rollers that can create a great enough pressure to bond the cohesives on the top and bottom sheet materials TS, BS that are facing each other to form the ends of the respective packages E 1  and E 2 . The set of rollers CR can run back and forward in the cross-machine direction as the product being packaged passes through the package forming system to form a first end and a second end of each package E 1  and E 2 . The first set of rollers CR can include a top roller CRT and bottom roller CRB that run back and forth from one side of the forming apparatus to other across the pathway of the top and bottom sheet materials TS, BS. As shown in the schematic drawing of  FIG. 1B , as the second package E 2  passes through the side rollers SR 1  such that an end of the product P 2  passes the side rollers SR 1  and enough of the top and bottom sheet materials TS, BS have passed through to allow a back end of the second package E 2  to be closed, the first set of rollers CR which can operate on a track can run across the package pathway with the top and bottom sheet materials TS, BS passing between the nip of set of rollers CR such that a seal is made between the top and bottom sheet materials TS, BS. This sealed portion between the top and bottom sheet materials TS, BS can form a second end of the second package E 2  as well as a first end of the first package E 1  being formed. In particular, the cross sealed portion can be cut or perforated by a cutting device to form the second end of the second package E 2  and the first end of the first package E 1  being formed. Such cuts or perforations can be performed after the end sealed portion is formed or during the formation of the end sealed portion. Similarly, instead of a set of rollers CR, a singular pressurized roller can form a nip with a portion of the shipping package forming system, such as an anvil bar or a portion of the frame, between which the top and bottom sheet materials TS, BS can pass. 
     As with the formation of the sides of the packages E 1  and E 2 , the length of the top and bottom sheet materials TS, BS between the respective ends of the products P 1  and P 2  and the respective front end and the back end of the respective sides of the packages E 1  and E 2  is such that the front end and the back end of the respective sides of the packages E 1  and E 2  can at least proximately align with center lines CL 1  and CL 2  of the respective packages E 1  and E 2 . In some embodiments, each of the ends of the packages E 1  and E 2  can be about an inch thick. With the alignment with the center lines CL 1  and CL 2  of the respective packages E 1  and E 2 , the closure angles between the centerline and the top and bottom sheet materials TS, BS can be approximately the same. For example, the closure angle β between the top sheet material TS and the centerline CL 1  on an end of the package E 1  being formed can be equal to or substantially similar to the closure angle β between the bottom sheet material BS and the centerline CL 1  on the end of the package E 1  being formed. Similarly, the closure angle ε between the top sheet material TS and the centerline CL 1  on either end of the second package E 2  can be equal to or substantially the same as the closure angle E between the bottom sheet material BS and the centerline CL 1  on either end of the second package E 2 . As shown in  FIGS. 1A and 1B , variations in the height of the product being shipped will likely often occur. As shown, product P 2  has a greater height than a height of the product P 1 . Thus, to accommodate the alignment of the sealed side and end portions of the package with the centerline of the products, a portion of the shipping package forming system can be adjustable. For example, the shipping package forming system can have an adjustable table portion over which the bottom sheet material BS can run and on which the product (on top of the bottom sheet material BS) can be placed. Such a table portion can allow for the alignment of the nips between the various rollers (and, in some embodiments, between rollers and frame portion) to be aligned with a centerline line of each product to improve the sealing of the ends and sides of the respective packages. 
     For example, referring to  FIG. 2 , a schematic of an embodiment of a shipping package forming system, also known as a former, generally designated  10 , is provided. The package forming system  10  can comprise a top sheet material guide system  12  and a bottom sheet material guide system  14 . Each of the top and bottom sheet material guide systems  12  and  14  can each comprise one or more tension rollers and/or drive rollers for providing top and bottom sheet materials TS, BS under tension. For example, a roll TS 1  of the top sheet material TS can be installed into the top sheet material guide system  12  and the top sheet material TS can be properly placed around the tension rollers and/or between the driver rollers. Similarly, a roll BS 1  of the bottom sheet material BS can be installed into the bottom sheet material guide system  14  and the bottom sheet material BS can be properly placed around the tension rollers and/or between the driver rollers. The sides of the top and bottom sheet materials TS, BS can be secured between the nips of two sets of rollers  18  (of which only one set is shown in  FIG. 2 , but similar to the sets of rollers SR 1  and SR 2  shown in  FIG. 1A ) on either side of the pathway of the top and bottom sheet materials TS, BS. The sets of nip rollers  18  can be pressurized or weighted to create a pressure high enough to seal the sides of the package being formed by the top and bottom sheet materials TS, BS. In some embodiments, the nip rollers  18  can operate as driver rollers for the top and bottom sheet material guide systems  12  and  14  and can pull the top and bottom sheet materials TS, BS along the product pathway. 
     The package forming system  10  can also comprise a cross seal device  20  for forming ends of the package being formed. The cross seal device  20  can be a variety of devices that can form ends of packages being formed. In some embodiments, the cross seal device  20  can comprise sealing bar and knife which extends across the product pathway. The knife can pushed straight downward against the sealing bar under pressure so that the end of the package is both sealed and cut. In some embodiments, as the embodiment shown in  FIG. 2 , the cross seal device  20  can comprise an anvil  22  that can be engaged by one or more rollers  24  carried by a carriage  26 . The carriage  26  can be operated along a track (not shown) transverse to the product pathway of the top and bottom sheet materials TS, BS. The rollers  24  can be placed under pressure so as to create a pressured engagement with anvil  22  as the rollers  24  roll across the top and bottom sheet materials TS, BS transverse to the pathway of the top and bottom sheet materials TS, BS. Due to cohesive on the interior side of the top and bottom sheet materials TS, BS, the top and bottom sheet materials TS, BS can be sealed together to form an end of package for the product as the rollers  24  roll over the top and bottom sheet materials TS, BS. When engaged with the anvil  22 , the transverse movement of the rollers  24  can form a first end of a package being formed and a second end of the package being finished as the rollers  24  roll across the top and bottom sheet materials TS, BS. The carriage  26  can include one or more blades  28  that can cut the joined top and bottom sheet materials TS, BS to form the ends of the respective adjacent packages being formed in the system  10 . 
     The package forming system  10  can also comprise a support table  30  that can be used to support a portion of the bottom sheet material BS and the product P that is placed upon the bottom sheet material BS and is being conveyed by the bottom sheet material BS. The support table  30  can include some of the guide system  14  of the bottom sheet material BS. The support table  30  can be positioned along the pathway to provide support to the product to be packaged such that the height of the table is movable to adjust a position of each individual product to be packaged in a transverse direction to the pathway relative to the nip rollers. For example, in some embodiments, the height of the table is movable to adjust a position of each individual product to be packaged upwardly or downwardly relative to the nip rollers. For instance, the table is movable to adjust a position of each product to align a centerline of the product with the nip rollers. The support table  30  can be automatically or semi-automatically adjusted upwardly or downwardly based on the centerline of the product P being packaged to align the centerline of the product P with the nips of the sets of rollers  18  as well as the nip created by the roller  24  and anvil  22  when the rollers are put under pressure. 
     In some embodiments, the package forming system  10  can comprise a height sensor  40  that can measure the height of the product P being processed. Additionally, the package forming system  10  can comprise, in some embodiments, a weight sensor  42 , such as a scale to measure the weight of the product or the package that is formed around the product and contains the product. For example, in some embodiments, a weight sensor can be positioned after the packaged is formed. Alternatively, the package that is formed around and that contains the product can be weighted in a later process. Further, in some embodiments, the package forming system  10  can include one or more sensors  44  that can measure distances related to the product P. In some embodiments, the sensors  44  can comprise length sensors that are used to measure the length of a product. In some embodiments, instead of measuring the length of the product, one or more sensors  44 , such as photo eyes, can be used to measure the presence of a product on the pathway and can also measure the distance from a start position once the product is placed on the pathway to a lead edge of the product once the bottom sheet material and product are moved forward. This measurement by sensors  44  can be sent to the controller  50  and can be used to determine the amount of top and bottom sheet materials TS, BS needed to form the rear portion of the package and the amount of adjustment for the table  30  in some embodiments. 
     As another example, in some embodiments, a weigh station  45  can be provided on which a product P 3  to be packaged can be placed before being placed on the conveying bottom sheet material BS on the support table  30 . The weigh station  45  can include the scale  42  for measuring the weight of the product to be shipped. Above the scale  42 , the height sensor  40  can be placed to measure the height of the product P 3  as the product P 3  is being weighed. 
     In embodiments that include a sensor  44 , the sensor  44  can operate as a length sensor and can be placed along the pathway of product within the package forming system  10  as the bottom sheet material BS moves the product P along the pathway. In some embodiments, the sensor  44  can be used to measure other distances beside the length of the product P. For example, in some embodiments, the sensor  44  can be secured to the support table  30  with guide rollers/tensioning rollers secured to the table  30  that guide the bottom sheet material BS around the sensor  44  in such a manner that the sensor  44  has an unobstructed view of the product P as it passes above the length sensor  44  while, at the same time, not interfering with the ability of the bottom sheet material BS to convey the product P within the package forming system  10 . 
     The package forming system  10  can further comprise a controller  50  that can be in communication with drive system (not shown) that can power the package forming system  10  to control the operation of the package forming system  10 . Further, for embodiments that employ one or more height, weight, and/or length sensors, such as sensors  40 ,  42 , and  44 , the controller  50  can be in communication with one or more of such sensors  40 ,  42 ,  44 . The controller  50  can also be in communication with the driver system (not shown) that can be used to adjust the support table  30  upwardly or downwardly. The controller  50  can comprise any capable processing unit, such as a programmable logic controller (“PLC”), a desktop computer, a laptop computer, a mini computer, or the like, including combinations thereof. The controller  50  can process the information provided by the sensors mentioned above as well as other sensors and information that the controller  50  can use to effectively operate the package forming system  10 . For example, in some embodiments, one or more sensors  44 , such as photo eyes, can be provided that can be used measure the presence of a product on the pathway and can also measure the distance from a start position once the product is placed on the pathway to lead edge of the product once the bottom sheet material and product are moved forward. This measurement by sensor  44  can be sent to the controller  50  and can be used to determine the amount of adjustment for the table  30  in some embodiments. 
     Regarding the adjustment of the table  30 , the controller  50  can obtain and process information from the sensors, such as height sensor  40  or distance measurements from sensor  44 , to determine whether the table  30  should be moved upward or downward to position the table  30  such that the centerline of the product aligns properly with the nips of the set of side rollers  18  and the roller  24  and the anvil  22 . The controller  50  can then communicate with a drive system (not shown) that moves the table  30  up and down to move the table  30  to the desired position at the appropriate time once the product that was measured is placed on the bottom sheet material BS and the table  30 . 
     Instead of using a height sensor and/or a length sensor, some embodiments can employ one or more sensors  44 , such as photo eyes, that measure the distance the product moves after placement of the product by an operator on the bottom sheet material BS along the pathway of the package forming system  10 . The controller  50  can use this measured distance to determine the length of top and bottom sheet materials TS and BS at the rear of the package and to determine the amount of adjustment that is needed for the table  30  for formation of the package. 
     As described above, when packaging a product with the package forming system  10 , it is desirable to have the seal on the side of the package in the center of the package top to bottom. This makes the top and bottom sheet materials TS and BS the same width with both side edges equal. One method for determining the height or thickness of the product to be packaged is for an operator to examine the package and estimate its thickness. The adjustable table  30  can have a placement gate attached, as explained in more detail below, and one or more laser guides LS can project one or more laser lines onto the bottom sheet material BS on the table  30 . For example, the laser guide LS can project three (3) laser lines in front of the placement gate. The distance between the laser lines and the distance between the forward most laser line and the placement gate can comprise the same distance or different distances. In some embodiments, these distances can be permanently set. In some embodiments, these distances can be varied depending on the types of products being packaged. For example, in some embodiments, these three lines can each be about one (1) inch apart and the first line closest to the placement gate can be about one (1) inch from the placement gate. The operator places the material to be packaged so that its front edge is located at the approximate thickness from the gate. The laser lines being about 1 inch apart gives the operator an opportunity to place the products to be packaged in the appropriate place where the operator judges enough room is available to provide an adequate seal at the ends of the package. Additionally, there can be a laser line projected down the center of the table  30  to assist the operator in placing the material in the middle of the table  30 . 
     The operator can then press a start button in communication with the controller  50  and the product is advanced on the bottom sheet material BS along the pathway of the package forming system  10 . The distance that the conveying bottom sheet material BS moves before the product to be packaged encounters a viewing path of the sensor  44 , such as the view path of photo eyes, determines the height or thickness of the package estimated by the operator and the table can be automatically adjusted so that the center of the package is on the center of the nip rollers  18  that seal the side of the package based on a simple calculation using that measurement. For instance, a measurement of a distance between a measuring point and a leading edge of the product as the product travels along the pathway can be taken with a sensor. The measuring point, for example, can be where the viewing path of the sensor intersects the product pathway before the product is moved along the travel path. This measurement can be communicated to the controller and the controller can calculate the distance to move the adjustable table. 
     The distance between the sensor  44  and the cross seal device  20  that separate one package from the next package is a fixed distance that tells the controller  50  when to stop and cut the package in question. As the product continues to advance through the package forming system  10 , the sensor  44  can identify the back edge of the package. To get the correct amount of top and bottom sheet materials TS, BS for the package to be formed, the controller  50  adds to the back of the package the same length of bottom sheet material BS as measured from the front of the product after the operator places it on the bottom sheet material BS along the pathway of the package forming system  10  to the position where the sensor  44  takes the reading of the front of the product. This represents the cut line for the back of the package and the front of the next product being packaged. 
     Also based on the measurement of the table  30  moves up and down to the center line of each of the products being packaged just before each package is about to advance through the side seal nip rollers. Using this method, the controller  50  does not need the length of the product to determine the length of material needed for the package but only the leading and trailing edges of the package. 
     The package forming system  10  can also comprise one or more perforation rollers  60  within the respective top and bottom sheet material guide systems  12  and  14  to perforate the respective top and bottom sheet materials TS and BS. IN embodiments that use them, the perforation rollers create perforations in the top and bottom sheet materials TS and BS so that when the package is formed, the perforations create a tear away access to open the formed package. Additionally, the top sheet material guide system  12  of the package forming system  10  can further comprise a sheet material switch, or sensor,  62  that can monitor the presence of top sheet material TS to notify an operator when the roll TS 1  of top sheet material TS has run out. Similarly, the bottom sheet material guide system  14  of the package forming system  10  can further comprise a sheet material switch, or sensor,  64  that can monitor the presence of top sheet material BS to notify an operator when the roll BS 1  of bottom sheet material BS has run out. 
     For example, in some embodiments, the sheet material sensors  62  and  64  can be contact switches that are positioned along the path of the top sheet material TS and the bottom sheet material BS. The top sheet material TS can be run between the upper switch  62  and the frame of the package forming system  10  and the bottom sheet material BS can run between the lower switch and the frame of the former. In such embodiments, when either the rolls of the top or bottom sheet materials TS and BS runs out, the respective contact switch will make contact with the frame and thereby stop operation of the package forming system  10  until a new roll of sheet material is loaded into the package forming system  10  and the sheet material is again placed between the respective contact switch and the frame. The controller  50  can be in communication with the sensors  62  and  64  to stop the package forming system  10  when a roll runs out until a new roll of sheet material can be installed. To make it easier to install a new roll of sheet material on either the top or bottom sheet material guide systems  12  and  14 , in some embodiments, one or both top and bottom sheet material guide systems  12  and  14  can include splicer devices  66 . In some embodiments, each splicer device  66  that can include a cutting slot  67  to allow for even cuts of the ends of the old roll and a new roll of sheet material being installed and a tape dispenser  68  for taping the ends of rolls of sheet material together. 
     In some embodiments, a scanner can also be in operable communication with the controller  50  to allow information related to the product being packaged and shipped to be scanned into system operated by the controller. For example, mailing information can be tied to a bar code that may be on a sticker on the product or on a printout with the product. 
     Further, in some embodiments, the package forming system  10  can comprise a printer  70  that can print a label to be placed on the package during formation of the package. In some such embodiments, the printer  70  can include a movable frame  72  and an application device  74  to aid in the application of a printed label to the package being formed. For example, the application device can be a label holding applicator arm  74 . As the printer prints a label to be attached, the printer  70  can be configured to remove the release backing of the label. At the same time, the label holding applicator arm  74  can be made of a metal and can be positioned above the mouth of the printer  70  where the label exits the printer  70  and in close proximity so that the printed label contacts and is held to the label holding applicator arm  74  by static electricity. The label, once printed and ejected from the printer  70 , can extend slightly outward from the end of the label holding applicator arm  74  with the tacky side of the label facing outward away from the label holding applicator arm  74 . When the controller  50  indicates to the system that the label should be applied to the top sheet material TS that is to form a top portion of the package associated with the label, the movable frame can move toward the top sheet material TS so that the tacky side of the label firmly contacts the top sheet material TS and the end of the label holding applicator arm  74  helps to apply the label to the top sheet material TS. 
     Referring to  FIGS. 3A-10 , a more detailed embodiment of a package forming system, also known as a former, generally designated  100 , is provided. As shown in  FIGS. 3A-3F , the package forming system  100  can comprise a top sheet material guide system  102  and a bottom sheet material guide system  104  that feed top and bottom sheet materials TS, BS into the package forming system  100  to form packaging around a product. The package forming system  100  can also comprise two sets of nip rollers  108  on either side of a pathway PA to seal the sides of a package being formed and a cross seal device  130  that can be used to seal the ends of the packages being formed in the system  100 . Additionally, the package forming system  100  can comprise an adjustable table  110  that can automatically adjust a position of each individual product to be packaged upwardly or downwardly to the sets of nip rollers  108  and the cross seal device  130  so that the top and bottom sheet materials TS, BS being fed into the package forming system  100  by the top and bottom sheet material guide systems  102  and  104  can form stronger and better seals along the sides and ends of a package around a product being packaged in the package forming system  100 . The package forming system  100  can further comprise a controller  150  that can be used to control the operation of the package forming system  100  and the different systems, components, and devices that comprise the package forming system  100 , including the adjustment of the adjustable table  110  and the nip rollers  108 . The package forming system  100  and its different systems, components and devices will be explained in more detail below. 
     The package forming system  100  can also comprise a frame  106  for supporting the sheet material guide systems  102 ,  104  and other components of the package forming system  100 , including the adjustable support table  110 . The frame  106  can comprise outer frame side panels  106 A,  106 B as well as a plurality of legs  106 C that can be directly or indirectly secured to the side panels  106 A,  106 B. In some embodiments, the frame  106  can also comprise one or more safety guards  106 D that can cover components of the package forming system  100  to protect the respective components of the package forming system  100  and reduce the possibility of injury to an operator of the package forming system  100 . 
     The top and bottom sheet material guide systems  102  and  104  can each comprise one or more tension rollers and/or drive rollers for providing the top and bottom sheet materials TS, BS under tension. For example, a roll TS 1  of the top sheet material TS can be installed into the top sheet material guide system  102  and the top sheet material TS can be properly placed around the tension rollers and/or between the driver rollers. Similarly, a roll BS 1  of the bottom sheet material BS can be installed into the bottom sheet material guide system  104  and the bottom sheet material BS can be properly placed around the tension rollers and/or between the driver rollers as described further below. In some embodiments, the nip rollers  108  can operate as driver rollers for the top and bottom sheet material guide systems  102  and  104  and can pull the top and bottom sheet materials TS, BS along the product pathway as explained further below. Other drive rollers (not shown) may be used in additionally or alternatively. 
     In particular in some embodiments as shown in  FIGS. 3G and 3H , the top sheet material guide system  102  can comprise a roll holding member that can include roll positioning arms  182  secured to the frame  106  that can have an axle lock  184 A for engaging an axle  184  on which the roll TS 1  of the top sheet material TS can be placed. Similarly, the bottom sheet material guide system  104  can comprise a roll holding member that can include roll positioning arms  186  secured to the frame  106  that can engage an axle  188  on which the roll BS 1  of the bottom sheet material BS can be placed. The axles  184  and  188  can aid in maintaining a proper tension in the top and bottom sheet materials TS, BS as the top and bottom sheet materials TS, BS travel within the package forming system  100  and can prevent over-rotation of the rolls TS 1 , BS 1 . 
     For example, as shown in  FIG. 10 , the axle  188  can have grooves or recesses  188 A,  188 B that can be aligned with each other on one or both ends of the axle  188  that can be configured to engage a portion, such as a protrusion or a detent, formed on one or both of the roll positioning arms  186  that can prevent the axle  188  from rotating. The fit between the roll BS 1  of the bottom sheet material BS and the axle  188  can be snug so that the roll BS 1  can rotate as the bottom sheet material BS is pulled through the package forming system  100  but prevents over-rotation of the roll BS 1  of the bottom sheet material BS. Similarly, the axle  184  and roll positioning arms  182  can be similarly configured to add tension and prevent over-rotation of the roll TS 1  of the top sheet material TS. Additionally or alternatively, the lock  184 A can be used to aid in preventing rotation of the axle  184 . 
     To load the roll TS 1  of the top sheet material TS on the axle  184  and into the roll positioning arms  182 , the roll positioning arms  182  can be pivotally secured on the end opposite from where the axle  184  is secured to allow the roll positioning arms  182  to be lowered once the roll TS 1  runs low or runs out of the top sheet material TS. The lock  184 A can be used to secure the axle  184  and the roll TS 1  of the top sheet material TS to the roll positioning arms  182  during operation of the package forming system  100  and during roll changing procedures. The roll positioning arms  182  can be secured in an operating position as shown in  FIG. 3G  during operation of the package forming system  100 . Once it is time to change the roll TS 1 , the roll positioning arms  182  can be lowered to a loading position as shown in  FIG. 3H  and the lock  184 A unlocked to allow removal of the axle  184  for an easier exchange of the roll TS 1 . Once a new roll IS of the top sheet material TS is placed on the axle  184  and the axle  184  installed and locked in the roll positioning arms  182 , the roll positioning arms  182  can be rotated and secured back in an operating position as shown in  FIG. 3G . While the embodiment of the roll positioning arms  182  as shown in  FIGS. 3G and 3H  are moveable between a loading position and an operating position, it is noted that, in some embodiments, the roll positioning arms  182  can be stationary or fixed similar to the roll positioning arms  186  for the bottom roll BS 1 . For example, in some embodiments, the roll positioning arms  182  and/or the roll positioning arms  186  can be integral to the outer frame side panels  106 A,  106 B of the frame  106 . 
     The sides of the top and bottom sheet materials TS, BS can be secured between the nips of the two sets of rollers  108  (of which only one set is shown in  FIGS. 3A, 5A and 5B , but similar to the sets of rollers SR 1  and SR 2  shown in  FIG. 1A ) on either side of the pathway PA of the top and bottom sheet materials TS, BS. The two sets of rollers  108  can comprise drive rollers that move the top and bottom sheet materials TS, BS as well as the product to be packaged along the pathway PA and through the package forming system  100 . A plurality of tension rollers  116  can also be provided to aid in holding the top and bottom sheet materials TS, BS under proper tension for forming the packages around the different sized products that are process through the package forming system  100 . The sets of rollers  108  can be pressurized or weighted to create a pressure high enough to seal the sides of the package being formed by the top and bottom sheet materials TS, BS. To adjust the package forming system  100  to package different sized products, the adjustable support table  110  can be provided that can be automatically adjusted up and down depending on a measured height of the product to be package, which can include one or more items. 
     The adjustable support table  110  can be movably secured to the frame  106  to allow the adjustable support table  110  to be moved upwardly and downwardly to facilitate accommodation of a wide variety of different sized products that can vary in height and length. The adjustable support table  110  can be secured to the frame  106  in a variety of difference manners and can have difference adjustment mechanisms to allow for movement of the adjustable support table  110  upwardly and downwardly. In some embodiments, as shown in  FIGS. 3A-3F and 4A-4F , the adjustable support table  110  can comprise a table top  114  that are secured to moveable inner side panels  118 A,  118 B. The table top  114  and inner side panels  118 A,  118 B can be moved upwardly or downwardly relative to the nip rollers  108 , or side forming rollers to allow for automatic accommodation of products with different heights based on measurements taken of the heights of products. As shown in  FIG. 4A , the adjustable support table  110  can comprise outer side panels  120 A,  120 B that can be secured to the outer frame side panels  106 A,  106 B and can be considered generally stationary in that the outer side panels  120 A,  120 B do not move with the table top  114  and inner side panels  118 A,  118 B when these components are being adjusted upwardly or downwardly. 
     In the embodiment shown in  FIGS. 3A-3F and 4A-4F , the table  110  supporting the bottom sheet material BS for the pathway PA that the products to packaged travel. In particular, the table top  114  supports the bottom sheet material BS, which acts a conveyor of the product being, package to carry the product through the package forming system  100 . The table  100  can also comprise a placement gate  112  that can aid in centering products to be packaged based on the height of the products and prevent products, which can contain multiple items, that are too tall to be properly packaged in the system  100  from travelling down the pathway PA to where the nip rollers  108  and the cross seal device  130  form the sides and ends of packages. The bottom sheet material BS travels along the table top  114  beneath the placement gate  112 . The placement gate  112  can have angled inner side walls that slant toward an inner top wall to form an aperture through which the pathway PA and the bottom sheet material BS passes. The inner top wall of the gate  112  can be centered on the pathway PA and can be about parallel to the table top  114  so that the inner top wall is about centered with and about parallel to the bottom sheet material BS. The inner side walls of the placement gate  112  are angled such that these side walls can help guide the placement of taller products to be packaged toward the center of the bottom sheet material BS to aid in proper align of the side edges of the top and bottom sheet materials TS, BS and can prevent products that are too wide for a given height from traveling further down the pathway PA. The size of the aperture formed between the placement gate  112  and the table top  114  and the angle of the inner side walls of the placement gate  112  can be dependent upon the width of the respective top and bottom sheet materials TS, BS being fed into the package forming system  100 . Thereby the placement gate  112  can be used to help prevent weak seals on the sides of packages being formed. 
     The placement gate  112  can have one or more laser guides (not shown) attached thereto. The laser guides can project a laser liner downward on the bottom sheet material BS in the pathway PA to identify where to place the product to be packaged. For example, placement gate  112  can have laser guides attached thereto that provide lateral and longitudinal laser guide lines that provide a centerline and a forward placement lateral line for placement of the product on the bottom sheet material BS. 
     The table top  114  and inner side panels  118 A,  118 B can be moved upwardly or downwardly in different manners and by different configurations and mechanisms. In some embodiments, as shown in  FIGS. 3F and 4A-4F , the adjustable support table  110  can further comprise cam plates  126 A,  126 B in addition to the inner side panels  118 A,  118 B and the outer side panels  120 A,  120 B. The cam plates  126 A,  126 B, inner side panels  118 A,  118 B, and the outer side panels  120 A,  120 B can be configured to interact with each other so that linear horizontal movements of the cam plates  126 A,  126 B can translate to generally upward and downward movement of the table top  114 . 
     In particular, in some embodiments, the cam plates  126 A,  126 B, inner side panels  118 A,  118 B, and the outer side panels  120 A,  120 B, for example, can have respective cam slots and cam members, such as cam rollers, that interact with each other so that linear horizontal movements of the cam plates  126 A,  126 B, can translate to generally upward and downward movement of the table top  114 . 
     In some embodiments, the cam plates  126 A,  126 B, for example, can have one or more cam slots  128 A,  128 B therein and one or more cam members, such as cam rollers  121 , that extend outward from an outer side of the cam plates  126 A,  126 B. Similarly, the inner side panels  118 A,  118 B can have one or more cam members, such as cam rollers  123 B, that extend inwardly from an inners side of the inner side panels  118 A,  118 B and one or more cam members, such as cam rollers  123 A that extend outwardly from an outer side of the inner side panels  118 A,  118 B. Additionally, the outer side panels  120 A,  120 B can have one or more cam slots  127 A,  127 B and  129 A,  129 B therein. 
     In particular in the embodiment shown in  FIGS. 3F and 4A-4F , each of the cam plates  126 A,  126 B can have two angled slots  128 A,  128 B therein in which one of the two respective cam rollers  123 B that extend inwardly from the respective inner side panels  118 A,  118 B can reside. Additionally, each of the cam plates  126 A,  126 B can have two cam rollers  121  protruding outward from a portion positioned below the inner side panels  118 A,  118 B that engage horizontal slots  127 A,  127 B in the respective outer side panels  120 A,  120 B. Each of the inner side panels  118 A,  118 B can additionally comprise two cam rollers  123 A,  123 B that extend outwardly toward the respective outer side panels  120 A,  120 B. These outward extending cam members can extend into cam slots  129 A,  129 B in outer side panels  120 A,  120 B in a generally vertical direction. 
     The cam rollers  121  extending outward from each of the cam plates  126 A,  126 B extend into the horizontal cam slots  127 A,  127 B so that as the cam plates  126 A,  126 B are moved, the horizontal cam slots  127 A,  127 B ensure this movement is a horizontal movement. As the cam plates  126 A,  126 B move back and forth in a linear horizontal movement, the cam members  123 B extending inward from the inner side panels  118 A,  118 B ride up and down the angled slots  128 A,  128 B in the cam plates  126 A,  126 B. Further, as the cam members  123 B extending inward from the inner side panels  118 A,  118 B ride up and down the angled slots  128 A,  128 B in the cam plates  126 A,  126 B, the cam members  123 A extending outward from the inner side panels  118 A,  118 B that engage the generally vertical slots in the outer side panels  120 A,  120 B direct the movement of the table top  114  and inner side panels  118 A,  118 B in a generally upward direction or downward direction. 
     To move the cam plates  126 A,  126 B, for example, as shown in  FIGS. 3F and 4A-4F , the table  110  can be constructed so that the cam plates  126 A,  126 B can be operated by one or more air cylinders  125 . In some embodiments, an adjustable air cylinder can be directly or indirectly secured to the cam plates  126 A,  126 B and can adjustably move the cam plates  126 A,  126 B by a desired amount in a horizontal direction causing the cam plates to ride up or down on respective cam members to move the table  110  up or down depending on the direction of movement of the adjustable air cylinder. In some embodiments as shown, multiple air cylinders  125  can work in conjunction to move the cam plates  126 A,  126 B by a desired amount in a horizontal direction causing the cam plates to ride up or down on respective cam members to move the table  110  up or down. The different cylinders  125  can raise and lower the table using the cam plate by varying amounts of distance as desired and designed. For example, a first air cylinder can raise the table about an eighth (⅛) of an inch, a second can raise the conveyor about a quarter (¼) of an inch, the third cylinder can move the table up about a half (½) of an inch, while a fourth cylinder will can raise the table up about one (1) inch. By using these cylinders, the table can move up or down from 0 inches to about 1⅞ inches. By using these cylinders, the table can be moved up or down from 0 inches to about 1⅞ inches of eighth (⅛) of an inch increments. 
     In particular, the cylinders  125  can be secured to a cross bar  122  that is secured to the cam plates  126 A,  126 B on a first end and to a cross bar  124  that is secured to the outer side panels  120 A,  120 B or the outer frame side panels  106 A,  106 B on a second end. By the cross bar  124  being attached to the outer frame side panels  106 A,  106 B or to the outer side panels  120 A,  120 B, which are held stationary by being secured to the outer frame side panels  106 A,  106 B, the second end of the cylinders  125  are held stationary while the first end of the cylinders  125  secured to the cross bar  122  attached to the cam plates  126 A,  1268  moves with the cam plates  126 A,  126 B as the cylinders  125  are activated. The cam plates  126 A,  1268  can have cross bar grooves, or slots,  124 A in which the cross bar  124 , which is attached to the outer side panels  120 A,  120 B of the table  110 , can reside. As the cylinders  125  move the cam plates  126 A,  126 B, the cam plates  126 A,  126 B can slide over the cross bar  124  within the cross bar grooves  124 A. 
     Thus, as the cylinders  125  push the cross bar  122  and the cam plates  126 A,  126 B attached thereto in one direction and as the cam plates  126 A,  126 B slide over the cross bar  124  within the cross bar grooves  124 A, the cam rollers  121  extending outward from the cam plates  126 A,  126 B slide horizontally within the horizontal slots  127 A,  127 B in the outer side panels  120 A,  120 B while the cam rollers  123 B extending inward from the inner side panels  118 A,  118 B slide downward in the angled slots  128 A,  128 B and the cam rollers  123 A extending outward from the inner side panels  118 A,  118 B move downwardly within the generally vertical slots in the outer side panels  120 A,  120 B with the table top  114  and inner side panels  118 A,  118 B moving downward. Conversely, as the cylinders  125  pull the cross bar  122  and the cam plates  126 A,  126 B in the opposite direction, the cam rollers  121  extending outward from the cam plates  126 A,  126 B slide horizontally within the horizontal slots  127 A,  127 B in the outer side panels  120 A,  120 B while the cam rollers  123 B extending inward from the inner side panels  118 A,  118 B slide upward in the angled slots  128 A,  128 B and the cam rollers  123 A extending outward from the inner side panels  118 A,  118 B move upwardly within the generally vertical slots in the outer side panels  120 A,  120 B with the table top  114  and inner side panels  118 A,  118 B moving upward. 
     As the table top  114  and inner side panels  118 A,  118 B move upward and downward, the tension rollers  116  attached to the inner side panels  118 A,  118 B can move upward and downward with the inner side panels  118 A,  118 B. To maintain the tension in the bottom sheet material BS without causing a pulling displacement of the sheet material when the table  110  moves upward and a bunching of excess sheet material as the table  110  moves downward, the translation of the lateral movements of the cam plates  126 A,  126 B to the upward and downward movement of the table  110  can be such that the upward and downward movement of the table  110  is at a slight angle off perpendicular. Thus, the cam slots in the outer side panels  120 A,  120 B can extend vertically at a slight angle off perpendicular. For example, in some embodiments, the cam slots in the outer side panels  120 A,  120 B can extend vertically at an angle of between about 1° and about 5° off perpendicular. In some embodiments, the cam slots in the outer side panels  120 A,  120 B can extend vertically at an angle of between about 2° off perpendicular. Thus, in some embodiments, the upward and downward movement of the table  110  can be at an angle of between about 1° and about 5° off perpendicular. In some embodiments, the upward and downward movement of the table  110  can be at an angle of between about 2° off perpendicular. Additionally, some of the tension rollers proximate to the location where the top and bottom sheet materials TS, BS enter between the nip rollers  108  on either side of the top and bottom sheet materials TS, BS can be stationary relative to the table to maintain the proper tensioning in the bottom sheet material BS. The inner side panels  118 A,  118 B can have angle slots formed therein to accommodate these stationary tension rollers. 
     Additionally, horizontal slots can be provided in the outer side panels  120 A,  120 B of the table  110  that can be engaged by outward extending members of the cam plates  126 A,  126 B. As the cam plates  126 A,  126 B are moved back and forth, the outward extending members on the cam plates  126 A,  126 B move within the horizontal slots in the outer side panels  120 A,  120 B of the table  110  to keep the movement of the cam plates  126 A,  126 B in a horizontal directional. Thereby, the movement of the cam plates  126 A,  126 B can be limited to horizontal movement. 
     For example, as shown in  FIGS. 5A and 58 , schematic views are provided of the travel paths for the top and bottom sheet material guide systems  102  and  104 , including associated tension rollers for the top and bottom sheet materials TS, BS leading into the two sets nip rollers  108  with the table moved in a direction M 1  to an upward position in  FIG. 5B  and moved in a direction. M 2  to a downward position in  FIG. 5A . As the top and bottom sheet materials TS, BS are pulled off the respective top sheet material roll TS 1  and bottom sheet material roll BS 1  by the drive the two sets of nip rollers  108 , top and bottom sheet material TS, BS travel around the various tension rollers  116  of which at least some are secured to and move upwardly and downwardly with the adjustable table  110  (shown in  FIGS. 4A-4F ). A controller  150  can be used to start and stop the two sets of nip rollers  108  that start and stop the travel of the top and bottom sheet materials TS, BS and can be used to automatically raise and lower the height of the adjustable table  110  (shown in  FIGS. 4A-4F ), for example, based on measurements taken of the height of the product to be packaged or based on placement of the package on the product pathway by an operator. The controller, as explained further below can be a variety of computing devices, such as various types of computers, programmable logic controllers, smart tablet or cellular devices, or the like, or combinations of such computing devices that can operate the package forming system  100 . Based on measurements of the length of the products to be packaged provided to the controller  150 , the controller  150  can also operate the cross seal device  130  to form and seal the ends of the packages around the respective products being packaged as explained in more detail below. 
     To aid in ensuring that the bottom sheet material BS does not improperly pull a product being packaged forward or create undesirable slack in the bottom sheet material BS, the package forming system  100  and bottom sheet material guide system  104  can include tension rollers  117 A,  117 B that are rotatably secured to, for example, the outer side panels  120 A,  120 B or the outer frame side panels  106 A,  106 B. In some embodiments as some in  FIG. 4F , generally vertical slots  118 S can be provided in the inner side panels  118 A,  118 B that travel upwardly and downwardly with the table top  114  and apertures  120 S can be provided in the outer side panels  120 A,  120 B to accommodate the tension rollers  117 A,  117 B that can be secured to the outer frame side panels  106 A,  106 B. These stationary tension rollers  117 A,  117 B, while rotatable, are stationary in their position relative to the adjustable table  110  as it is moved up and down. These stationary tension rollers  117 A,  1178  can be positioned far enough below the table top  114  so as to not interfere with the movement of the table top  114  or the movement of the bottom sheet material  85 . By having a guide tension roller  116 C that is secured to the table  110  and farthest inward along the pathway PA and closest to the sets of nip rollers  108  and the cross seal device  130 , the bottom sheet material BS can act as conveyor before the package begins to be formed. The bottom sheet material BS can wrap around the guide tension roller  116 C and then move back and downward around the stationary tension rollers  117 A,  117 B before extending upward from the stationary tension roller  1178  to the sets of nip rollers  108  that engage the side edges of the top and bottom sheet materials TS, BS. The slight angle off perpendicular of the movement of the table top  114  (shown in  FIGS. 4A-4F ) and the position of the stationary tension rollers  117 A,  117 B relative to the guide tension roller  116 C as well as the fact that these stationary tension rollers  117 A,  117 B stay in the same position relative to the movement of the table top  114  and guide tension roller  116 C can help prevent improper alignment of the bottom sheet material BS as it conveys products toward the sets of nip rollers  108  and the cross seal device  130 . Additionally, as shown in  FIGS. 5A and 5B , the package forming system  100  and bottom sheet material guide system  104  can include stationary rotatable tension rollers  111 A,  111 B on the front end of the guide system  104  proximal to the bottom sheet material roller BS 1  and a fixed tube  113  that creates a drag on the sheet material BS that also aid in ensuring that the bottom sheet material BS does not improperly pull a product being packaged forward or create undesirable slack in the bottom sheet material BS. The stationary rotatable tension rollers  111 A,  111 B stay in the same position relative to the movement of the table top  114  and front tension rollers  116  to help prevent improper alignment of the bottom sheet material BS as it conveys products toward the sets of nip rollers  108  and the cross seal device  130  in a similar manner as the stationary rotatable tension rollers  117 A,  117 B described above. As stated, the fixed tube  113  that creates a drag on the sheet material BS that also can help prevent improper alignment of the bottom sheet material BS as it conveys products toward the sets of nip rollers  108  and the cross seal device  130 . The set of tensioning rollers  116  shown in  FIGS. 5A and 58  near the roll BS 1  of bottom sheet material can also be used to help track the bottom sheet material BS in a similar manner to the guide tension roller  116 C and the stationary tension rollers  117 A,  117 B described above. Two of the tensioning rollers  116  near the roll BS 1  can be stationary while a third roller  116  attached to the adjustable table at the bottom of the front end can move with the table as the table is adjusted. Thus, in a similar manner as described above, the set of tensioning rollers  116  near the roll BS 1  of bottom sheet material can be used to aid in ensuring that the bottom sheet material BS does not improperly pull a product being packaged forward or create undesirable slack in the bottom sheet material BS. 
     To aid in preventing the top sheet material TS from causing a misalignment of the product being packaged as the side edges of the top and bottom sheet materials TS, BS enter the nips of the sets of rollers  108 , the package forming system  100  can comprise a holding arm  119 . The holding arm  119  can have the top sheet material TS extend around one end and can move up or down so as to push the top sheet material TS against a top portion of a product to be packaged as the begins to enter the side forming and end forming area of the package forming system  100  where the sets of nip rollers  108  and the cross seal device  130  reside. The holding arm  119  can be useful in stabilizing products that comprise more than one item, such as plurality of books or compact discs, as the items enter the side forming and end forming area of the package forming system  100 . The holding arm  119  can be pivotally secured to the package forming system  100  on one end and can have a tension roller on the other end around which the top sheet material TS can extend. The controller  150  can move the holding arm  119  into position based on the height of the product being packaged and the position of the table top  114  so that the top sheet material TS firmly contacts the top side of the product being packaged, but allows the product and top and bottom sheet materials TS, BS to move forward in the package forming system  100 . 
     In some embodiments, the package forming system  100  can also comprise one or more perforation rollers  180  as shown in  FIGS. 5A and 58  within the top sheet material guide system  102  to perforate the respective top sheet material TS. The perforation rollers  180  can create perforations in the top sheet material TS so that when the package is formed, the perforations create a tear away access to open the formed package. In some embodiments, one or more perforation rollers  180  can additionally or alternatively, be positioned within the bottom sheet material guide system  104  to perforate the respective bottom sheet material BS. Additionally, the top sheet material guide system  102  of the package forming system  100  can further comprise a sheet material switch, or sensor, (not shown) that can monitor the presence of top sheet material TS to notify an operator when the roll TS 1  of top sheet material TS has run out. 
     Similarly, the bottom sheet material guide system  104  of the package forming system  100  can further comprise a sheet material switch, or sensor, (not shown) that can monitor the presence of bottom sheet material BS to notify an operator when the roll BS 1  of bottom sheet material BS has run out. 
     As shown in  FIGS. 3A-3F , to accomplish the adjustment of the support table  110  in some embodiments, the package forming system  100  can comprise a height sensor  162  that can measure the height of the product being processed. Additionally, in some embodiments, the package forming system  100  can comprise a weight sensor  166 , such as a scale, and a length sensor  164 , as shown in that can measure the length of the product. For example, a weigh station  160  can be provided on which a product to be packaged can be placed before being placed on the conveying bottom sheet material BS on the support table  110 . The weigh station  160  can include the scale  166  for measuring the weight of the product to be shipped. 
     In some embodiments as shown in  FIGS. 3A, 3B, 3D, 9A and 9B , the height sensor  162  can comprise an attachment arm  162 A for attaching the height sensor  162  to the package forming system  110  and a measurement arm  1628  that can be rotatably secured to the attachment arm  162 A along an axle  162 C. The measurement arm, for example, can rotate upward toward the attachment arm  162 A and downward toward the frame  106 . The height sensor  162  can also include a rotary resistor  162 D that engages the measurement arm  162 B. The height sensor  162  can use the rotary resistor  162 D to measure the rotational movement and position of the measurement arm  1628  relative to the frame  106  to determine the height of product, which may include one or more items, to be packaged. Using the rotary resistor  162 D, a computer, such as the controller  150 , can calculate the height of the product being packaged based on the angle of the measurement arm  162 D when the product is placed under the measurement arm  162 B, The height sensor  162  can also include an abutment  162 E (see  FIG. 30 ) which the product to be packaged can abut when the product is placed on the frame  106  under the measurement arm  162 B and the height measurement is to be taken. 
     The height sensor  162  can be off to the side of pathway PA to allow movement of the bottom sheet material BS to compensate for the height of the product before placement of the product on the bottom sheet material BS. For example, the height sensor  162  can be configured so that the measurement for height can be taken on the frame  106  off to the side of the pathway PA. In this manner, once the height of the product to be packaged is measured, the bottom sheet material BS can be moved forward to compensate for the height of the product before placement of the product on the bottom sheet material BS to ensure that angle of closure of the ends of the package being formed are correct. 
     In some embodiments as shown in  FIGS. 8A and 88 , the weigh station  160  can be provided on which a product to be packaged can be placed before being placed on the conveying bottom sheet material  85  on the support table  110 . The weigh station  160  can include the scale  166  with a display for measuring the weight of the product to be packaged positioned on a platform  168 . As an alternative to the height sensor  162  explained above, the height sensor  163  can be secured to the platform  168  above the scale  166  to measure the height of the product as the product is being weighed. 
     A sensor  164  can be placed along the pathway PA of product within the package forming system  100  as the bottom sheet material  85  moves the product along the pathway PA. For example, in some embodiments, the sensor  164  can be secured to the support table  110  with guide rollers/tensioning rollers  116  and  116 A secured to the table  110  that guide the bottom sheet material BS around the sensor  164  in such a manner that the sensor  164  has an unobstructed view of the product as it passes above the sensor  164  while, at the same time, not interfering with the ability of the bottom sheet material BS to convey the product within the package forming system  100 . To help protect the bottom sheet material BS and aid in the feeding of the bottom sheet material BS around the tensioning roller  116 A, a half-moon guard  116 B can be secured in relatively close proximity to the tensioning roller  116 A to deflect and direct the sheet material around the tensioning roller  116 A. In some embodiments, the sensor  164  can be used to measure the length of the product to be packaged. 
     Referring to  FIGS. 9A-9B , instead of using a height sensor and/or a length sensor, some embodiments can employ one or more sensors  164 , such as photo eyes, that measure the distance the product moves after placement of the product by an operator on the bottom sheet material BS along the pathway of the package forming system  100 . The controller  150  can use this measured distance to determine the length of top and bottom sheet materials TS and BS at the rear of the package and to determine the amount of adjustment that is needed for the table  110  for formation of the package. 
     As described above, it is desirable to have the seal on the side of the package in the center of the package top to bottom when packaging a product with the package forming system  100 . This makes the top and bottom sheet materials TS and BS the same width with both side edges equal. One method for determining the height or thickness of the product to be packaged is for an operator to examine the package and estimate its thickness. The adjustable table  110  can have the placement gate  112  attached, as explained above, and a laser guide, or projector, LS 1  can project one or more laser lines onto the bottom sheet material BS on the table  110 . 
     For example, Referring to  FIGS. 9A-9C , one or more laser guides, or laser projectors, LS 1  can project three (3) laser lines LL 1 , LL 2 , LL 3  in front of the placement gate  112 . The distance between the laser lines LL 1 , LL 2 , LL 3  and between the forward most laser line LL 1  and the placement gate  112  can comprise the same distance or different distances. In some embodiments, these distances can be permanently set. In some embodiments, these distances can be varied depending on the types of products being packaged. For example, in some embodiments, these three lines LL 1 , LL 2 , LL 3  can each be about one (1) inch apart and the first line LL 1  closest to the placement gate  112  can be about one (1) inch from the placement gate  112 . The operator can place the one or more products to be packaged so that the front edge of the one or more products is located at the approximate thickness of the one or more products from the gate  112 . The laser lines LL 1 , LL 2 , LL 3  being about 1 inch apart gives the operator an opportunity to place the products to be packaged in the appropriate place based on the operator&#39;s assessment of the thickness of the product or one or more products. 
     Additionally, there can be a laser line CLL projected down the center of the table  110  to assist the operator in placing the one or more products in the middle of the table  110 . In some embodiments, the center laser line CLL can be projected by a second laser guide, or projector, LS 2 . In the embodiment shown, the center laser line CLL can be projected from the second laser projector LS 2  that can be secured to the gate  112 . The operator can then press a start button in communication with the controller  150  and the product can be advanced on the bottom sheet material BS along the pathway of the package forming system  100 . 
     The distance the conveying bottom sheet material BS moves before the product to be packaged encounters the sensor  164 , such as the view path of photo eyes, determines the thickness of the package estimated by the operator and the table can be automatically adjusted so that the center of the package is generally aligned with the center of the nip rollers  18  that seal the side of the package. For instance, a measurement of a distance between a measuring point and a leading edge of the product as the product travels along the pathway can be taken with a sensor. The measuring point, for example, can be where the viewing path of the sensor intersects the product pathway before the product is moved along the travel path. This measurement between the measuring point and the leading edge of the product can be communicated to the controller and the controller can calculate the distance to move the adjustable table. 
     The distance between the sensor  44  and the cross seal device  130  that separate one package from the next package is a fixed distance that tells the controller  150  when to stop and cut the package in question. As the product continues to advance through the package forming system  100 , the sensor  164  can identify the back edge of the package. To get the correct amount of top and bottom sheet materials TS, BS for the package to be formed, the controller  150  adds to the back of the package the same length of bottom sheet material BS as measured from the front of the product after the operator places it on the bottom sheet material BS along the pathway of the package forming system  10  to the position where the sensor  164  takes the reading of the front of the product. This represents the cut line for the back of the package and the front of the next product being packaged. 
     Also based on the measurement of the table  110  moves up and down to the center line of each of the products being packaged just before each package is about to advance through the side seal nip rollers. Thus, by using this method, the controller  150  does not need the height or the length of the product to determine the length of material needed for the package but only the leading and trailing edges of the package. 
     As shown in  FIGS. 3A-3F and 7 , the package forming system  100  can further comprise a controller  150  that can be in communication with the sensors  160 ,  162 ,  164  and in communication with a drive system (not shown) that can power the package forming system  100  to control the operation of the package forming system  100 . The controller  150  can also be in communication with the driver system (not shown) that can be used to adjust the support table  110  upwardly or downwardly. The controller  160  can comprise any capable processing unit, such as a programmable logic controller (“PLC”), a desktop computer, a laptop computer, a mini computer, or the like, including combinations thereof. The controller  150  can process the information provided the sensors mentioned above as well as other sensors and information that the controller  150  can use to effectively operate the package forming system  100 . 
     Regarding the adjustment of the table  110 , the controller  150  can obtain and process information from the sensors, such as a height sensor  162  in some embodiments or one or more sensors  164  that can be used to measurement s distance representative of the length of a bottom sheet material on which the product is placed from a measuring point where the package being formed is to begin to a leading edge LE of the product P, to determine whether the table  110  should be moved upward or downward as described above to position the table  110  such that the centerline of the product aligns properly with the nips of the set of side rollers  108  and the cross seal device  130 . The controller  150  can then communicate with a drive system (not shown) that moves the table  110  up and down to move the table  110  to the desired position at the appropriate time once the product that was measured is placed on the bottom sheet material BS and the table  110 . 
     In some embodiments as shown in  FIG. 7 , the controller  150  can be encased by a housing  106 E. The controller  150  can include an on-off switch  152  for turning on the package forming system  100  and an emergency stop, or E-stop button  154 . The controller  150  can also include a display  156  that can be used to display pertinent information to operator as needed. The controller  150  can further include a switch  158  can be used to drive the bottom sheet materials TS, BS within the package forming system  100  by activating the nip rollers  108 . The controller  150  can also comprise an operation button and can be pushed to advance the products being packaged within the package forming system  100  as certain criteria are met. For example, the operation button can be able to be lit green to indicate to the operator that the product can be advanced within package forming system  100 . 
     A scanner can also be in operable communication with the controller to allow information related to the product being packaged and shipped to be scanned into system operated by the controller. For example, mailing information can be tied to a bar code that may be on a sticker on the product or on a printout with the product. Further, the package forming system  100  can comprise one or more printer devices  170  that can each comprise one or more printers. The printers on the printer device  170  can print a label to be placed on the package during formation of the package. The printer device  170  can include a movable frame  172  and an application device  174  to aid in the application of a printed label to the package being formed. For example, the application device can be a label holding applicator arm  174 . As the printer prints a label to be attached, the printer device  170  can be configured to remove the release backing of the label. At the same time, the label holding applicator arm  174  can be made of a metal and can be positioned above the mouth of the printer where the label exits the printer and in close proximity so that the printed label contacts and is held to the label holding applicator arm  174  by static electricity. The label, once printed and ejected from the printer can extend slightly outward from the end of the label holding applicator arm  174  with the tacky side of the label facing outward away from the label holding applicator arm  174 . When the controller  150  indicates to the system that the label should be applied to the top sheet material TS that is to form a top portion of the package associated with the label, the movable frame  172  of the printer device  170  can move toward the top sheet material TS so that the tacky side of the label firmly contacts the top sheet material TS and the end of the label holding applicator arm  174  helps to apply the label to the top sheet material TS. For example, the movable frame  172  can rotate the printer device  170  downward toward the top sheet material TS to apply the label. In some embodiments, the label applied to the top sheet material TS can run under a nip roller  176  shown in  FIG. 5A and 58  to facilitate the sealing of the label to the top sheet material TS to a portion that forms the outer side of the package being formed. 
     As outlined above, the packaging forming system can operate under a variety of different methods as outlined above. For example, a method of forming a package around a product to be shipped in a packaging forming system can be provided that includes various steps. For instance, the method can comprise placing a product to be packaged on a pathway of a packaging forming system supported by an adjustable table of the packaging forming system. The method can comprise determining a distance that the adjustable table is to be moved in an upwardly or downwardly direction to align a centerline of the product to be packaged with nip rollers of the packaging forming system with a controller of the packaging forming, system. Additionally the method can include moving the adjustable table the determined distance in an upwardly or downwardly direction to align the centerline of the product to be packaged with nip rollers of the packaging forming system based with the controller of the packaging forming system. Further, the method can comprise running side edges of the bottom sheet material and side edges of a top sheet material through the nip rollers to form sides of a package on either side of the product and engaging a cross seal device to engage the bottom sheet material and the top sheet material in a direction transverse to the direction that the bottom sheet material and the top sheet material are traveling in the packaging forming system to form a leading end and trailing end of the package. 
     In some embodiments of the method, the step of placing a product to be packaged on the pathway of the packaging forming system can comprise using laser lines and a placement gate to determine where to place the product on the pathway. In some embodiments, the step of determining a distance that the adjustable table is to be moved can comprise taking a measurement of a distance between a measuring point and a leading edge of the product as the product travels along the pathway with a sensor, communicating the measurement to the controller and the controller calculating the distance to move the adjustable table. In some embodiments, the step of determining a distance that the adjustable table is to be moved comprises taking at least one of a height measurement or a length measurement with one or more sensors and communicating the at least one of a height measurement or a length measurement to the controller and the controller calculating the distance to move the adjustable table. 
     Further example embodiments of methods of using the package forming system are now described in more detail. One or more shipping package forming apparatuses and systems as described herein can be operated in a fulfillment center. In general for a use in a fulfillment center, the order can be entered to begin. For example, an order number, also known as a “license plate, number can be assigned to an incoming order. The shipper name and address can be collected as well as the ship to address, the items ordered, the order number. Further the packaging method can be assigned. A pick list with the License Plate number attached can then be generated. The product ordered can be delivered with the pick list to a shipping packaging forming station. 
     In some embodiments, the operator can place the picked product along with the pick list with the license plate number on a former weigh scale. In some embodiments, the operator can place the picked product a on a pathway of former, or package forming system or apparatus in front of a placement gate. For example, the operator can estimate the thickness of the picked product or products and place it on the pathway on top of a bottom sheet material based on a laser lines projected onto the bottom sheet material. One or more sensors can be used to measure the distance between a measuring point on the product pathway to a leading edge of the product as the product travels along the pathway. The information gathered from these sensors can be sent to the controller of the former. The controller can comprise any capable processing unit, such as a programmable logic controller (“PLC), a desktop computer, a laptop computer, a mini computer, or the like, including combinations thereof. A scanner can also be in operable communication with the controller and can be used to obtain information from the license plate number. This gathered information about the distance between the measuring point on the product pathway to the leading edge of the product as the product travels along the pathway can later be used to determine the length of top and bottom sheet materials needed and the amount an adjustable table is to be adjustable to align the picked product with nip rollers and/or a cross seal device in the former with the picked product, such as along a centerline of the picked product, to form a package around the picked product. For example, the distance between the measuring point on the product pathway to the leading edge of the product as the product travels along the pathway can be used to set the amount of top and bottom sheet materials to form the trailing end of the package and can be used to align the centerline of picked product with the nip rollers and/or a cross seal device. 
     Additionally or alternatively, in some embodiments, one or more sensors of the former can be used to measure such things as the height, weight and/or length of the product and the information gathered from these sensors can be sent to the controller of the former. In such embodiments, the controller can process the weight and scanned license plate number information. For example, the controller is connected to another computer, such as a desk top computer or a main computer system of the fulfillment center to which it can send the weight and scanned license plate number information. 
     Once the picked product is placed in the appropriate place on the bottom sheet material along pathway, the controller can set the start push button to a blinking mode (on\off on\off). The controller, or a computer in operable communication with the controller, can send the license plate number to the main computer system and can provide such information as the packing list, the shipper name and address, the ship to address, the product weight and/or the shipping company. In some embodiments, after receiving the required information, the controller, or a computer in operable communication with the controller, can request a label from the shipping vendor via an internet connection. This shipping label with the requisite information on it can be placed in a printer que and a packing slip can be sent to a laser printer located on that is in operable communication with the controller and in close proximity to the former. In some embodiments, the label can be requested and printed after the package is formed. 
     In some embodiments, the controller of the former can calculate the movement of the former paper and can move the table supporting the paper to the desired position based on the distance between the measuring point on the product pathway to the leading edge of the product. Alternatively, in some embodiments, the controller of the former can calculate the movement of the former paper and can move the table supporting the paper to the desired position based on the measurements taking by a height sensor or length sensor. As the sheet material is run over through the former machine, the bottom sheet material acts as a conveyor that moves the product through the former machine over the sensor that measures the length of the product as it passes. 
     In some embodiments where the distance between the measuring point on the product pathway to the leading edge of the product is measured, the measured distance can be used by the controller to calculate amount to move the table top to align the height position of the product with the side nip rollers and/or the cross seal device of the former. For example, in some embodiments, the controller can calculate an distance to move the table top upward based on a simply calculations that calculates a movement distance that is a portion the distance measured between the measuring point on the product pathway to the leading edge of the product so that the centerline of the picked product aligned with the side nip rollers and/or the cross seal device of the former. 
     In some embodiments where the height and length measurements of the product are taken, the controller of the former can use a lookup table to find the length of sheet material required to move from the top of the product to the middle of the product at a specified angle. In some embodiments, the total length of the package along with the weight of the packaging material can also be used by the controller to order a label for the shipment. 
     To form the packages around the product, each product to be packaged can have three (3) to four (4) unique points of interest as it moves through the former. The first point of interest is where to stop the conveyor to place the package on the conveyor. The second point of interest is where to stop the product to adjust the height of the conveyer table so as to have the seal around the package in the middle of the package. The third point of interest is where to stop the conveyor to seal the front of this package and the back of the previous package. In some embodiments, the fourth point of interest is where to stop the conveyor to place the label on the top sheet material so as to have the label positioned on the middle of the package. As each product is placed on the conveyor, these three to four locations can be placed in a database que in the controller with the action to be taken at that stop point. 
     The former can also include features to help manage the production of the packaging around the products to be shipped. For example, the former can include on the control panel a jog sheet material button to move the sheet material forward. Such a button can be useful during the loading of one or more rolls of new sheet material. The jog button can also be useful for moving the sheet material forward during maintenance or the like. 
     The former can also include sheet material switches or sensors that can monitor the presence of sheet material to notify the operator when a roll of sheet material has run out. For example, the sheet material switches can be contact switches that positioned along the path of the upper sheet material and the-lower sheet material. The upper sheet material can be run between the upper switch and the frame of the former and the lower sheet material can run between the lower switch and the frame of the former. When either the upper or lower sheet material runs out, the respective contact switch will make contact with the frame and thereby stop operation of the former until new sheet material is loaded into the former and sheet material is again placed between the respective contact switch and the frame. 
     Additionally, the former can include an emergency stop switch and a finish package button to allow the last package of each day or shift to be sealed and finished when no other product is in line behind the last package. The cross sealer that seals the ends of the package can also be opened and closed to allow for maintenance of the transverse pressure rollers and the blades used to cut the end of each package. 
     When the machine is empty, the top and bottom sheet material can be loaded. This can be done by an operator or by some loading mechanism. 
     Once the operator places the product to be packaged in front of the gate and press the lighted start button, the bottom sheet material, acting as a conveyor, then moves the picked product forward within the former. 
     The controller will stop the bottom sheet material when the front of the product being packaged reaches the front of the table on which the product is to be conveyed. The controller will move the table height up or down to position the center line of the product being packaged to the nip roll height. The conveying bottom sheet material will move the front of the package to the cross seal cut line. The controller can then call the horizontal seal/cut routine. New products to be packaged and shipped will follow through the former as required. 
     The table can be constructed with cam plates operated by 4 air cylinders. The different cylinders can raise and lower the table using the cam plate by varying amounts of distance as desired and designed. For example, a first air cylinder can raise the table about an eighth (⅛) of an inch, a second can raise the conveyor about a quarter (¼) of an inch, the third cylinder can move the table up about a half (½) of an inch, while a fourth cylinder will can raise the table up about one (1) inch. By using these cylinders, the table can move up or down from 0 inches to about 1⅞ inches. 
     The cross cut-seal cylinder is equipped with two vertical air cylinders in addition to a cross rod-less cylinder. The two vertical cylinders can raise and lower the cross cut-seal cylinder in different manners. For example, one vertical cylinder can raise the seal anvil up and down. The other vertical cylinder can raise and lower a safety bar to be sure that there is nothing in the way of the cross cylinder. This cylinder can have a switch that is made if the safety bar is completely down on both ends of the seal bar. The cross rod-less cylinder has switches on both ends of its stroke and can be operated by a double solenoid air valve. 
     The cross cut/seal routine can operate as follows. The PLC can look at both the left and right end of stroke of the rod-less cylinder to see where the carriage of the cylinder is parked. The seal anvil can be raised and the safety bar is lowered. The solenoid can be energized to move the cut/seal carriage away from the end where it is parked if both sides of the safety bar are down. If both ends are not down, the system stops notifies the operator via operator panel. This solenoid can remain on until the end of stroke switch on the opposite of the rod-less cylinder closes. This solenoid can be turned off, the safety bar can be raised and the seal anvil can then be lowered. 
     These and other modifications and variations to the present subject matter may be practiced by those of ordinary skill in the art, without departing from the spirit and scope of the present subject matter, which is more particularly set forth herein above and any appending claims. In addition, it should be understood the aspects of the various embodiments may be interchanged either in whole or in part. Furthermore, those of ordinary skill in the art will appreciate that the foregoing description is by way of example only, and is not intended to limit the present subject matter.