Abstract:
A container having a base, a lid, and a tamper-evident, closed band. The base includes a sealing section and defines a space and an opening at a periphery that has an outwardly extending base flange with a contact surface. The lid has a lid sealing section and an outwardly extending lid flange having a contact surface. The base sealing section and the lid sealing section form a reclosable snap fit. The lid and base flanges can also include a removed portion to create an increased distance between contact surfaces on the lid and base flanges. The tamper-evident, closed band can attach at a first end to one of the base and lid, with a free second end, can be substantially detachable from the base or lid as a closed band, and can also extend to substantially prevent direct manual access to the lid and base flanges.

Description:
CROSS-REFERENCE TO RELATED APPLICATIONS 
     This application is a continuation-in-part of U.S. patent application Ser. No. 11/446,622, filed 5 Jun. 2006, now U.S. Pat. No. 7,631,776 which clams priority to U.S. Provisional Application No. 60/689,394, filed 10 Jun. 2005. This application is also a continuation-in-part of U.S. patent application Ser. No. 11/230,978, filed 20 Sep. 2005, now U.S. Pat. No. 8,083,089 which clams priority to U.S. Provisional Application No. 60/698,736, filed 13 Jul. 2005. Each of these applications are incorporated by reference herein in their entireties. 
    
    
     BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     The inventions relate generally to containers, particularly tamper-evident containers with extended bands. 
     2. Description of the Related Art 
     Retail markets have utilized rigid and flexible plastic containers to contain and display perishable and fragile food items both hot and cold, such as sandwiches, salads and bakery items. These traditional roles of plastic packaging are now the minimum expected standards, and the requirements placed on plastic food packaging continue to expand as increasing demands are placed upon it. Presentation, brand presence, consumer desires, added value to enhance commercial competitiveness, differentiation, imagery and psychology has resulted in the design and application of plastic packaging becoming more challenging. Convenience continues to shape the future of packaging, with consumers gravitating toward packaged convenience items that minimize the impact on their behavior forcing packaging manufacturers to include social and environmental considerations into their development process. 
     Rigid plastic food containers are typically manufactured from Polystyrene, Polypropylene, Polyethylene Terephthalate (PET), Polylactide, Polyvinyl Chloride (PVC), or other rigid polymers. They generally comprise either of two-parts—a tray and base—or they may be a one-piece construction with a hinge that modifies one portion of the container to act as the base and the other connected portion to act as a lid. This general configuration of food containers in a large variety of shapes and cross-sections (circular, rectangular, square, and elliptical, etc.) has been available in the marketplace for many years. 
     However, a limitation or concern has been undisclosed potentially malicious ingress into such containers that can lead to inadvertent or intentional contamination of the contents of the food container. This has created an increased awareness of and demand for tamper-resistant and tamper-evident food packaging systems. Product tampering has been in existence for as long as there have been packaged consumer goods. The causes of tampering are varied but generally take one of two forms: the first is malevolent tampering, and the second is for personal gratification, where one samples a product and puts it back on the shelf and the next customer is unaware of the contamination. Both modes of tampering compromises the safety and quality of food package contents. The costs of tampering are enormous. In addition to the recalling of tampered, as well as un-tampered product, the resulting negative publicity can lead to reduction in revenue and brand equity, with retailers being forced to stop purchasing from one or more products form the affected company or even litigation. 
     In 1982, Johnson and Johnson (J&amp;J) experienced such a situation when numerous bottles of its Extra-Strength Tylenol capsules had been laced with cyanide. By the end of the crisis, J&amp;J had spent $100 million recalling 31 million bottles, they ceased production of the product and further pursued redesign of its bottles. Seven people died from the ingestion of the cyanide-laced pills. The threat of tampering has been amplified in the wake of the terrorist attack of Sep. 11, 2001. Possible contamination of food product on a potentially larger scale been envisioned. 
     In the packaging industry, tampering is the interference with the package contents, and the risk of tampering is a phenomenon that we have come to accept as a necessary evil when making purchases. Today, it is impossible to find food packaging that does not have a security feature. Virtually every packaged food product is enclosed or is attached to a tamper-evident or tamper-proof security feature. Tamper-evident means that a package that has undergone tampering will show some readily observable sign that the tampering has taken place; the sign may be audible or visible. It is the opinion of the inventor that in addition to its functions of protecting the product inside against physical and microbiological harm and oxygen ingress, and of providing brand recognition and product differentiation in the marketplace, packaging should also be designed to protect the consumer against tampering, whether deliberate or accidental. 
     Methods developed and currently used to combat tampering have included bonding the edges of existing packages. The advantage of such an approach is that a barrier against tampering could be achieved without changing the packaging design. Alternatively, addition of clear or printed shrink-wrap over the neck edge joint between the lid and tray or the entire package that keeps the packaging and its contents secure have been used. These methods provide some assurance to the consumer that the product has not been interfered with. Similarly, other attempts developed to combat packaging product tampering include under-lid barriers (e.g. heat-sealed pop-up lids, glued boxes and tape seals). 
     A limitation associated with these methods, however, is that they achieve only a low level of tamper-evident packaging. They are either not sufficiently or distinctively visible to the consumer, or they can be returned to their original condition with a glue gun and a hair dryer. This further makes disposal of unused sealing material a security issue as unused, intact seals may be used to reseal contaminated product. 
     It would be advantageous to consumers if there were a simple method that would rapidly indicate if a rigid plastic food package had been interfered with, that is, opened and then re-closed prior to purchase. 
     As it is extremely difficult to develop product packaging that is regarded as fully tamper-proof, the packaging industry&#39;s efforts have been directed to develop solutions that would ensure that any tampering can be clearly visible to the potential consumer. In response to the evolving demands of consumers, retailers continue to seek novel plastic packaging solutions to improve on the safety, convenience and therefore marketability of food product. 
     As such, the inventors recognizes that greater utility of such rigid plastic containers would be obtained through improved tamper-evident containerization methods and designs to increase the safety to the consumer but yet retains both the functional aspects required from rigid plastic packaging. The present inventions fulfill this need. 
     SUMMARY OF THE INVENTIONS 
     In one embodiment, a container can include a base, a lid, and a tamper-evident, closed band. The base can define a space and an opening at a periphery, the opening can include at least one outwardly extending base flange, and the flange can have a contact surface. The base can also include a base sealing section. The lid can have a shape that generally matches the opening of the base generally at a periphery of the lid. The lid can also include at least one outwardly extending lid flange with a contact surface at the periphery, as well as a lid sealing section. The base sealing section and the lid sealing section can together form a reclosable snap fit when the lid is forcibly applied to the opening of the base to generally close the opening. Further, the base flange and lid flange can be in at least approximate alignment when the opening is closed such that the lid and base flanges can be manually pulled apart to separate the lid and base and overcome the snap fit. The lid and base flanges can also include a removed portion to create an increased distance between contact surfaces on the lid and base flanges at least one region. The tamper-evident, closed band can attach at a first end to one of the base and lid substantially along its entire periphery. At a second end, the band can have a free end. The tamper-evident band can be substantially detachable from the base or lid as a closed band. The band can also extend to substantially prevent direct manual access to the lid and base flanges. 
     In another embodiment, a container can also include a base, a lid, and a tamper-evident tab. The base can define a space and an opening at a periphery, the opening having at least one outwardly extending base flange, and the base flange having a contact surface. The base can also have a sealing section. The lid can define a shape that generally matches the opening of the base generally at a periphery of the lid. The lid can also have at least one outwardly extending lid flange that has a contact surface at the periphery such that the base flange and lid flange can be in at least approximate alignment when the opening is closed by the lid. Further, the lid can have a sealing section such that the lid sealing section and the base sealing section can together form a continuous reclosable snap fit connection. This can allow the lid and base flanges to be manually pulled apart to separate the lid and base. The lid and base flanges can additionally have a removed portion creating an increased distance between corresponding contact surfaces of the lid and base flanges at least one region. The tamper-evident, closed band can attach at a first end to one of the base and lid substantially along its entire periphery. The band can also have a free end at a second end. The tamper-evident band can extend to substantially prevent direct manual access to the lid and base flanges. Further, the band can be detachable from the base or lid at a separated portion such that the band can be bent at the separated portion to allow manual access to the lid and base flanges near the separated portion. 
     In yet another embodiment, a container can include a base, a lid, and a tamper-evident band. The base can define a space and an opening at a periphery. The opening can include at least one outwardly extending base flange. Further, the base can have a base sealing section. The lid can define a shape that generally matches the opening of the base generally at a periphery of the lid. The lid can also include at least one outwardly extending lid flange at the periphery and a lid sealing section, such that the base sealing section and the lid sealing section can together form a continuous and reclosable snap fit when the lid is forcibly applied to the opening of the base to generally close the opening. The base flange and lid flange can also be in at least approximate alignment when the opening is closed such that the lid and base flanges can be manually pulled apart to separate the lid and base and overcome the snap fit. The tamper-evident band can attach at a first end to one of the base and lid substantially along its entire periphery and have a free end at a second end. The tamper-evident band can extend to substantially prevent direct manual access to the lid and base flanges. The band can also be detachable from the base or lid such that a majority of the lid and base flanges can be exposed upon detachment. However, the band can remain partially attached to one of the base and lid and the band can sever into a strip near the remaining partial attachment. 
     In another embodiment, a base can define a space and an opening at a periphery, the opening comprising at least one outwardly extending base flange and the base further comprising a base snap-fit portion. A lid can define a shape that generally matches the opening of the base generally at a periphery of the lid. The lid also can have at least one outwardly extending lid flange at the periphery and a lid snap-fit portion, such that the base snap-fit portion and the lid snap-fit portion can together form a snap fit when the lid is forcibly applied to the opening of the base to generally close the opening. Also, the base flange and lid flange can be in at least approximate alignment when the opening is closed such that the lid and base flanges can be manually pulled apart to separate the lid and base and overcome the snap fit. A tamper-evident band can attach at a first end to the lid substantially along its entire periphery and have a free end at a second end. The tamper-evident band can be substantially detachable from the lid at least a corner portion. Further, the band can extend to substantially prevent direct manual access to the lid and base flanges. Upon tearing, the band can remain partially attached to the one of the base and lid, forming a strip and a remaining partial attachment. 
     In a further embodiment, a base can define a space and an opening at a periphery, the opening comprising at least one outwardly extending base flange, the flange having a contact surface, and the base further comprising a base snap-fit portion. A lid can define a shape that generally matches the opening of the base generally at a periphery of the lid. The lid can also have at least one outwardly extending lid flange having a contact surface at the periphery and a lid snap-fit portion, such that the base snap-fit portion and the lid snap-fit portion can together form a continuous reclosable snap fit when the lid is forcibly applied to the opening of the base to generally close the opening. Also, the base flange and lid flange can be in at least approximate alignment when the opening is closed such that the lid and base flanges can be manually pulled apart to separate the lid and base and overcome the snap fit. A tamper-evident band can attach at a first end to at least one of the lid and base. The band can be tearable from the lid or base along at least ⅕ of the first end. The band can additionally have a corner lock along a corner wall portion. The band can prevent direct manual access to the lid and base flanges while attached to at least one of the lid and base. The band can expose the lid and base flanges upon tearing, such that the flanges or band can be pulled to separate the lid and base. 
     In a further embodiment, a base can define a space and an opening at a periphery, the opening comprising at least one outwardly extending base flange and the base further comprising a base snap-fit portion. A lid can define a shape that generally matches the opening of the base generally at a periphery of the lid. The lid can also have at least one outwardly extending lid flange at the periphery and a lid snap-fit portion, such that the base snap-fit portion and the lid snap-fit portion can together form a continuous reclosable snap fit when the lid is forcibly applied to the opening of the base to generally close the opening. Also, the base flange and lid flange can be in at least approximate alignment when the opening is closed such that the lid and base flanges can be manually pulled apart to separate the lid and base and overcome the snap fit. A tamper-evident band can attach at a first end to the lid substantially along its entire periphery and have a free end at a second end. The tamper-evident band can be substantially detachable from the lid at least a separating portion. The band can also include two or more inward protrusions that abut the base flange at the separating portion at least when the band is pulled upward from the base. 
     In a further embodiment, a base can define a space and an opening at a periphery, the opening comprising at least one outwardly extending base flange and the base further comprising a base snap-fit portion. The base and the opening can also define a polygonal shape with one or more corners. A lid can define a shape that generally matches the opening of the base generally at a periphery of the lid. The lid can also have at least one outwardly extending lid flange at the periphery and a lid snap-fit portion, such that the base snap-fit portion and the lid snap-fit portion can together form a continuous horizontal snap fit when the lid is forcibly applied to the opening of the base to generally close the opening. Also, the base flange and lid flange can be in at least approximate alignment when the opening is closed such that the lid and base flanges can be manually pulled apart to separate the lid and base and overcome the snap fit. A tamper-evident band can attach at a first end to the lid along each of its sides and be unattached at least one corner portion. The tamper-evident band can also have a free end at a second end. The tamper-evident band can substantially detachable from the lid. Prior to detachment, the band extends to substantially prevent direct manual access to the lid and base flanges. The band can also include two or more inward protrusions ( 68 ) that abut the base flange at the corner portion at least when the band is pulled upward from the base. 
     In an additional embodiment, a container lid can be configured to form a snap-fit with a base. The container lid can have a broad central portion, a snap-fit portion, a lid flange, and a detachable skirt. The snap-fit portion can be at a periphery of the broad central portion and be configured to form a snap-fit with a base. Outward from the snap-fit portion can be the lid flange with one or more raised portions at a corner of the lid flange. Finally, the skirt can be detachable and attached to the lid flange along the periphery of the container lid. The skirt can also have one or more inward protrusions. 
     In another embodiment, a method of forming a container can be provided. A first portion can be formed, defining a space, an opening, a periphery, and a sealing portion. A second portion can be formed and shaped to cover the opening. The second portion can also include a periphery and a sealing portion. A series of perforations can then be cut in at least one of the first or second portions to form a removeable, closed band encircling a periphery of the first or second portion. The first portion can be applied to the second portion, bringing the two sealing portions adjacent each other and closing the opening. Advantageously, the closed band can extend to block access to the periphery of a first or second portion to which it is not attached. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       The following drawings and the associated descriptions are provided to illustrate particular embodiments of the present disclosure and do not limit the scope of the claims. 
         FIG. 1  is a perspective view of an embodiment of a container system in an open position; 
         FIG. 2  is a perspective view of the container system of  FIG. 1  in a closed position; 
         FIG. 3  is a side view of the container system of  FIG. 2 ; 
         FIG. 4  is a top view of the container system of  FIG. 2 ; 
         FIG. 4A  is an enlarged view of the container system of  FIG. 4  at  4 A- 4 A; 
         FIG. 4B  is a cross-sectional side view of the container system of  FIG. 4  at  4 B- 4 B; 
         FIG. 4C  is a cross-sectional side view of the container system of  FIG. 4  at  4 C- 4 C; 
         FIG. 4D  is an enlarged view of the container system of  4 B at  4 D- 4 D; 
         FIG. 4E  is an enlarged view of the container system of  4 C at  4 E- 4 E; 
         FIG. 4F  is an enlarged view of an alternative embodiment of a container system, corresponding to  FIG. 4D ; 
         FIG. 4G  is an enlarged view of another alternative embodiment of a container system, corresponding to  FIG. 4D ; 
         FIG. 5  is a perspective view of the lid of  FIG. 1 ; 
         FIG. 6  is a side view of the lid of  FIG. 5 ; 
         FIG. 7  is a perspective view of the container system of  FIG. 1  in an open, torn position; 
         FIG. 8  is a perspective view of the container system of  FIG. 1  in a partially opened position; 
         FIG. 8A  is an enlarged view of the container system of  FIG. 8 ; 
         FIG. 8B  is an enlarged view of an alternative embodiment of a lid, corresponding to  FIG. 8A ; and 
         FIG. 8C  is an enlarged view of another alternative embodiment of a lid, corresponding to  FIG. 8A . 
     
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     The following description and examples illustrate preferred embodiments of a container system. The container system is disclosed in the context of use with various food products. The principles of the present invention, however, are not limited to food products. It will be understood by those of skill in the art in view of the present disclosure that the container system described can be used with other types of goods, including, but not limited to: haberdashery, fasteners, pharmaceuticals, chemicals, and the like. One skilled in the art may also find additional applications for the devices and systems disclosed herein. Thus, the illustrations and descriptions of the container system in connection with food are merely exemplary of some possible applications of the container system. 
     To assist in the description of these components, the following coordinate terms are used.  FIG. 1  depicts an x-y-z Cartesian coordinate system, with the container system primarily lying in the x-y plane. As described herein, terms such as “height” refer to distance in the z-direction, and “higher/upward” and “lower/downward” refer to the positive and negative z-direction, respectively. Similarly, terms such as “outward” and “inward” generally refer to directions in the x-y plane directed generally away from or toward the center of the container system. Similarly, terms such as “lateral” will refer to the x-direction and “longitudinal” will refer to the y-direction. A detailed description of a preferred embodiment of the container system, and its associated method of use, now follows. 
       FIG. 1  depicts a container system  1  including a base  10  and a lid  40 . As will be further discussed below, the lid  40  can include a band  60 , as depicted here. The base  10  can define a space into which foods (or other products) can be inserted. The lid  40  can then be applied to the base  10  to close the space. As will be discussed further below, in the depicted embodiment the space can be sealed from the ambient atmosphere such that the space is leak proof. However, in other embodiments the lid  40  and base  10  can combine to form a fully or partially vented space such that gases, liquids, or larger particles can enter and/or exit. 
     In a preferred embodiment, the entire container system  1  can be composed of substantially the same material, such as Polystyrene, Polypropylene, Polyethylene Terephthalate (PET), Polylactide, Polyvinyl Chloride (PVC), other thermoplastics, or other materials. However, other materials can be used. Additionally, in preferred embodiments the materials can be clear such that an observer can see the contents of the container system  1  and receive some verification of the freshness, quality, and nature of the goods contained. However, in other embodiments the materials can be frosted, darkened, pigmented, have labels applied, or be treated in other ways. 
     Additionally, as depicted the container system  1  has a generally square, tubular shape. The base  10  can gradually taper from a smaller bottom  11  to a larger opening at its opposite end. However, other shapes are possible. For example, the container system  1  can have a circular, triangular, hexagonal, ovoid, or other cross-sectional shape. Further, the container system  1  can have a varying cross-sectional shape and size that may differ from that in the depicted embodiment. As one relatively small example regarding shape, in some embodiments the base  10  can include ribbing along its sides. 
     As depicted in  FIGS. 2 and 3 , the base  10  can include a bottom  11  and four side walls  13 . As discussed above, when the container system  1  has a different shape, the number of side walls  13  can vary. Further, as depicted the base  10  can taper downwards, although this is not necessary in all embodiments. Further, as depicted, the base  10  can include a stacking rim  12 . The stacking rim  12  can generally match a stacking rim  42  on the lid  40 . Thus, when two container systems  1  are stacked, one-on-another, the stacking rims  12 ,  42  can interengage and significantly improve the stability of the stacked system. Further, the base  10  can include an opening, a flange  14  generally along its periphery, and corner flanges  16  generally at the corners. Even further, although not depicted here, the base  10  can include a variety of additional features such as ribbing, indicia, gripping surfaces, and the like. Also, as will be described in greater detail below, the base  10  can include various features that facilitate opening, closing, and sealing the container system  1 . 
     As depicted in  FIGS. 4 and 4A , the lid  40  can have a shape generally similar to that of the base  10 . More particularly, the lid  40  in the depicted embodiment can have a shape that approximately matches that of the opening of the base  10 . The lid  40  can include a broad portion  41  generally forming the middle of the lid  40 . Nearer the periphery, the lid  40  can include a stacking rim  42 , as described above, to engage with the stacking rim  12  of the base  10 . Even further toward the periphery, the lid  40  can include a flange  44  that can extend to a free end of the lid  40 . At the corners of the flange  44  the lid  40  can include a corner flange  46 . A gripping surface  45  can be included at the corner flange  46 , including an easy-grip surface such as a textured surface. Additionally, as partially depicted in  FIGS. 4D ,  5 , and  6 , the corner flange  46  can include a raised portion  47 . The corner flange  46  can include a gradually rising ramp on either side of the raised portion  47 . 
     As best depicted in  FIGS. 4D and 4E , the lid  40  and base  10  can combine to form a snap-fit seal near their peripheries.  FIGS. 4D and 4E  depict such features near the corners and the sides, respectively. Although the features related to sealing are substantially the same between these regions in the depicted embodiments, in other embodiments they can vary. For example, in some embodiments it may be desirable to provide a stronger seal along the walls and a weaker seal near the corners, to facilitate opening of the container system  1  at a desired location. 
     As depicted, the base  10  can include a sealing section  18  along the side wall  13 . The sealing section can be formed by a portion of the side wall  13  expanding outwardly as it extends upward, forming a lower-boundary or engagement surface for the sealing section  48  of the lid  40 . The sealing section  18  of the base  10  can then form a generally central undercut, where the sealing section  48  of the lid  40  can extend into and press against the base  10 . The sealing section  18  of the base  10  can then extend back inward, forming an upper-boundary or engagement surface for the sealing section  48  of the lid  40 . The lid sealing section  48  can have similar features as the base sealing section  18 , forming an outwardly-extending protrusion. The two sections  18 ,  48  can then come together to form a snap-fit connection, wherein at least one of the sections deflects to come into the sealed arrangement depicted. The engagement surfaces can be generally continuous and facilitate the formation of a seal. Alternatively (or additionally) the seal can be formed in the central section of the sealing sections  18 ,  48 . In either case, in the depicted embodiment a snap-fit connection can be formed that additionally provides a seal. When the seal extends around the entire periphery of the container system  1 , the space within the container can be isolated from the ambient atmosphere by a liquid and/or gas tight seal. Advantageously, the depicted embodiment can also be reclosable and resealable. 
     In other embodiments, details of the sealing and snap-fit may vary. For example, in some embodiments the direction of the protrusions can be reversed. Further, in some embodiments the form of the seal can vary along the periphery of the container system  1 . Even further, in some embodiments a complete, liquid and/or gas tight seal might not be formed, such as where venting is provided. A variety of additional variations are possible and contemplated in the embodiments of the invention. For example, in some embodiments there can be a seal that does not snap-fit or vice versa, or the sealing and snap-fit functionality can arise from separate structures. 
     As discussed above, the lid  40  and the base  10  can also include flanges  14 ,  16 ,  44 , and  46 . As depicted in  FIG. 4D , the corner flanges  16 ,  46  can be separated. In the depicted embodiment, the separation can be formed by the flanges being raised (lid) and lowered (base) outwards from their respective contact surfaces  50 ,  26 . The contact surfaces  50 ,  26  of the lid  40  and base  10  can generally limit the translation of the lid  40  into the base  10 . Further, the contact surface  26  on the base  10  can provide support to the lid  40 , preventing a lower lid  40  from excessive deflection or breaking when bearing a load from above. The contact surfaces  50 ,  26  can further be configured to support the lid  40  sufficiently to withstand application of the lid  40  to the base  10  during an automated machine process. Although the contact surfaces  50 ,  26  are depicted as being horizontal, in other embodiments they can be angled, curved, vertical, or otherwise. 
     As further depicted, the lid corner flange  46  can be raised from the lid contact surface  50 , and the base corner flange  16  can generally be lowered, creating a distance between the lid corner flange  46  and the base corner flange  16 , and also forming a lower contact surface  26 C accessible for opening by, e.g., a human finger. Comparing with FIG.  4 E, in which only the lid flange  14  is lowered and the lid flange  44  is not, there can be less space between the flanges along the sides as compared to the corners. Accordingly, in the depicted embodiment the corners can form a preferred place to grip, potentially to open the container system  1  by pulling the lid  40  and the base  10  apart. 
     Additionally, comparing  FIGS. 4D and 4E  indicates that the area of contact between the contact surfaces  50 ,  26  of the lid  40  and base  10  can vary between the corners and other regions. As depicted in  FIG. 4D , the base  10  can include two up-facing surfaces  26 A,  26 B, of which only  26 B contacts the contact surface  50  of the lid  40 . However, in  FIG. 4E  the entire base contact surface  26  can interact with the lid contact surface  50  along the edges of the container. In other embodiments, the relations between the contact surfaces can vary in other ways. Further, although the depicted contact surfaces are generally flat, in other embodiments they can comprise other shapes. Additionally, as depicted, the lid  40  can include contact surfaces, such as the down-facing contact surface  36  generally opposite the separate contact surfaces  26 A,  26 C on the base  10 . 
       FIGS. 4F and 4G  depict alternative embodiments of the lid  40  and base  10  at the corner portion (corresponding with  FIG. 4D ). As depicted in the embodiment of  FIG. 4F , both the lid and base corner flanges  46 ′,  16 ′ can be raised/lowered. Differing from  FIG. 4D , the corner flanges  46 ′,  16 ′ can both extend a greater distance, further facilitating their gripping and separation. As depicted in the embodiment of  FIG. 4G , the base corner flange  16 ″ can be non-lowered, or at the same vertical position as the contact surface  26 ″. Thus, the distance between the lid and base corner flanges  46 ″,  16 ″ can be reduced. Although the embodiments depicted in  FIGS. 4D-4F  are described as depicting corner or non-corner positions, in other embodiments their locations can vary. 
     As further depicted in the Figures, the lid  40  can attach to a band  60 . As best shown, the band  60  can be a closed band, forming a complete loop and/or having an annular structure. Advantageously, a complete loop can require fewer cuts or similar steps to form the band  60 . Further, the entire band  60  can be removed at once, as further described below. The band can attach to the lid  40  at a tear line depicted as a perforated end  62 . In some embodiments the attachment points can be point-attachments, facilitating tearing at these points. However, in other embodiments the band  60  can attach to the lid  40  by other means, such as at a weakened portion, a portion of thinned material, a groove, adhered to, bonded to, or other structures that can form a tear line. The band  60  can be removable from the lid  40  by a variety of means such as tearing, pulling, shearing, cutting, detaching, etc. As depicted in  FIGS. 4D-4G , the band  60  can extend downward from the lid  40  and substantially block access to the free end  28  of the base  10 . Further, as the band  60  can extend completely around the periphery of the lid  40  and base  10 , it can block access to the entire free end  28  of the base. Thus, while the band  60  is in place a user&#39;s fingers cannot easily access the flanges  14 ,  16  of the base  10 . Thus, the base  10  cannot be easily gripped, only its side walls  13  and bottom  11  being generally available. Further, the lid  40  cannot be easily gripped because its periphery is attached to the band  60 , leaving only its upper side available. 
     As a result of this configuration, the container system  1  cannot be easily opened while the band  60  is in the depicted position. However, the band  60  can be removable from the lid  40  and can have a free end  64  that can be easily accessible. Thus, one can grasp the free end  64  of the band  60  and pull it from the lid  40 , exposing the flanges of the lid  40  and base  10  and allowing opening of the container system  1 . Advantageously, the band  60  can be substantially symmetrical with no specific tab to pull. Thus, the band  60  can be removed from any side. The symmetry also allows a label to be applied to any side wall  13  without need to identify which side should be a “front” or “back”. 
     It will be noted that additional embodiments of this design are contemplated herein. For example, in some embodiments the band  60  can attach to the base  10  instead of the lid  40 . In such cases, the band  60  can extend upward, preventing access to a lid free end. In other embodiments, portions of the flanges  14 ,  16 ,  44 ,  46  of the lid  40  and base  10  can be too close together for a person to easily grasp there between. In such embodiments, the band  60  can extend over only a portion of the periphery. As another example, in some embodiments the band  60  can attach to both the lid  40  and the base  10 , even though in the depicted embodiments the band  60  is not attached to the base  10 . It will be clear from the description herein that a wide variety of additional forms of the band  60  are possible. 
     Further, as depicted, the band  60  can attach to the lid  40  only in particular areas. For example, as depicted in  FIGS. 4 and 4D , the band  60  can be generally detached from the lid  40  near the corners (while attached elsewhere, as depicted in  FIG. 4E ). This can result from the attachment between the band and the lid being pre-cut at or near the corners, or at a removed portion as further described herein (i.e. when the container is generally round). Thus, the band  60  can be easily grasped and pulled away from the lid  40  at the corners. As depicted in  FIG. 8 , this can facilitate removal of the band  60  by pulling it upward sufficiently to separate the band  60  from the lid  40  by pulling it with one hand and the side walls  13  of the base  10  with another hand. Alternatively, pulling up the band  60  at a corner can expose enough of the lid or base corner flanges  16 ,  46  to allow one to grasp one of those to help separate the band  60 . Notably, as depicted in  FIG. 8 , the entire band  60  need not be removed. Instead, in some embodiments it can be sufficient to only tear the band  60  at a corner. Further, in such embodiments the band  60  can be firmly bonded along the remaining border with the lid  40 , such that the band  60  only tears near the corner. Alternatively, in some embodiments the band  60  can be unattached to the lid  40  near the corner. For example, in embodiments where the band  60  is initially integral with the lid  40 , the join line along the perforated end  62  of the band  60  can have a cut-out near the corner such that they are unattached in that region. Thus, the band  60  can be more easily lifted near the corner. 
     More particularly, in some embodiments where the band  60  remains partially attached to the lid  40 , the band can be tearable along a specific portion of the length of the band-lid connection. For example, the band  60  can be tearable along approximately ⅕ of the length. Further, to prevent the lid  40  and base  10  from separating prior to the tearing of the band  60 , they can require a specific force to separate greater than the force necessary to tear the band. For example, the lid  40  and base  10  can require a force of at least approximately 0.2 pounds to separate. 
     It should be noted that the band  60  can include a raised portion similar to the raised portion  47  of the lid  40  near its corners. Thus, the band  60  can generally match the periphery of the lid  40  while providing a flat free end  64 . As depicted, the free end  64  of the band  60  can include an outwardly extending flange, facilitating gripping of the band  60 . 
     Further, to prevent unintended opening of the container system  1 , the band  60  can include corner locks  68 . The corner locks  68  can be generally adjacent the corners of the band  60  and form inward extending, elongated protrusions that can interact with the flange  44  of the lid  40 . The corner locks  68  can engage the flange  44  from below, generally hindering upward movement of the band  60  relative to the lid  40  near the corners. Thus, even though the band  60  might not be connected to the lid  40  near the corners, the corner locks  68  can prevent unintended relative movement. In some embodiments, the corner locks  68  can have slightly different forms and/or be positioned at different points. 
     Additionally, in some embodiments the corner locks  68  can hinder opening of the container system  1  without tearing the container. For example, in some embodiments the band  60  can be detached from the lid  40  near the corners. Further, as described above, the lid  40  and base  10  can be generally separated at the corners. Thus, in some embodiments it might be possible to lift the lid  40  and band  60  together near the corners to expose the base flange  14 . In such embodiments, the container system  1  could possibly be opened without tearing. To make such unidentified opening more difficult, the corner locks  68  can be provided. The corner locks  68  can engage the base flange  14  requiring an outward bend to pass the base flange. Thus, a greater movement of the band  60  can be necessary to both rise up and bend outward around the base flange  14 . This increased movement can be sufficient to induce severing of the band  60  from the lid  40  at least one point. This functionality can be particularly advantageous for embodiments such as that discussed above regarding  FIG. 8 , where the band  60  separates only at a corner. 
     Further, as depicted the band  60  can include indicia, indicating that one can “PULL UP TO TEAR” (or other language). The band  60  can also include directional indicators, further communicating a method for opening the container system  1 . 
     Additionally, in some embodiments the band  60  can include additional tearable portions. For example, in some embodiments an annular band  60  can include a tear line that, upon tearing, converts the annular band into a strip. Further, in some embodiments this additional tear line can be configured not to tear upon detachment of the band  60  from the lid  40 . However, in other embodiments the band  60  can be configured to remain as an annular band, with no additional tearable or frangible portions. 
       FIGS. 8B and 8C  depict alternative bands  60  and their attachment to the lid  40 . As depicted in  FIG. 8B , the band  60  can have an attachment portion  70  that can remain attached to the lid  40 . The band  60  can separate from the attachment portion  70 , breaking the loop and leaving a portion behind. As depicted, the attachment portion  70  can span the entire width of the band  60  and be generally near the corner. However, in other embodiments its shape and location can vary.  FIG. 8C  depicts another band  60  with an attachment portion  70 . However, in  FIG. 8C  the band  60  can remain closed, and attached to the lid  40 . In both embodiments, at least a portion of the band  60  can remain attached to the lid  40  after it has been removed to ease opening of the container system  1 . Advantageously, this can leave an indication that the container system  1  has possibly been previously opened. Absent said remaining portion, one might not realize that a band  60  ever was present, and thus not realize that the container system  1  may have previously been opened. 
     In one method of forming the container systems described above, a base  10  can be formed by molding, thermoforming, or the like. Further, the lid  40  and band  60  can be formed integrally in a similar manner. Perforations between the band  60  and the lid can then be cut with a cutting tool, laser, or otherwise. Advantageously, the lid  40  and band  60  can be modular with respect to the base  10 , allowing different sized bases  10  to be used with any given lid/band combination. 
     The bases  10  can then be loaded with a desirable product such as food, spices, drugs, hygiene products, chemicals, etc. The lid  40  (along with the band  60 ) can then be snap-fit onto the base  10 , providing a secure connection and in some embodiments a seal. At this point, the container system  1  is closed and the band  60  indicates that has likely not been opened since its initial closing. 
     As described above, one can then open the package by gripping a corner of the band  60  and lifting it upwards to tear it from the lid  40 . Once the band  60  is sufficiently removed to expose the flanges of the lid and base, those flanges can be pulled apart to open the container system  1 . If desired, the container system  1  can be reclosed, with the torn band  60  indicating the prior activity. 
     Reference throughout this specification to “some embodiments” or “an embodiment” means that a particular feature, structure or characteristic described in connection with the embodiment is included in at least some embodiments. Thus, appearances of the phrases “in some embodiments” or “in an embodiment” in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures or characteristics may be combined in any suitable manner, as would be apparent to one of ordinary skill in the art from this disclosure, in one or more embodiments. 
     In the above description of embodiments, various features of the inventions are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the disclosure and aiding in the understanding of one or more of the various inventive aspects. This method of disclosure, however, is not to be interpreted as reflecting an intention that any claim require more features than are expressly recited in that claim. Rather, inventive aspects lie in a combination of fewer than all features of any single foregoing disclosed embodiment. 
     Although the invention(s) presented herein have been disclosed in the context of certain preferred embodiments and examples, it will be understood by those skilled in the art that the invention(s) extend beyond the specifically disclosed embodiments to other alternative embodiments and/or uses of the invention(s) and obvious modifications and equivalents thereof. Thus, it is intended that the scope of the invention(s) herein disclosed should not be limited by the particular embodiments described above.