A packaging comprising a container configured for disposal of a volume of flowable material. A carton configured for disposal of the container, the carton including a wall defining an opening. Visual indicia of the volume is provided. Packaging products, containers, handles, tooling, applicators and methods are disclosed.

A corrugated plastic box and a method for manufacturing a corrugated plastic box from a blank are provided. The method includes the steps of forming rounded edge seals on the perimeter edges of the blank, pre-sealing portions of the blank—including providing air vents to allow trapped air to escape during the pre-sealing process—to form a plurality of areas in which major and minor flap slots and a glue tab are desired, ultrasonically scoring the blank to form a plurality of flap score lines, and cutting the blank through the plurality of pre-sealed flap slots and glue tab, leaving a sealed edge.

A blank used to form a hexagonal shaped box, the blank having a front sidewall and a back sidewall, a first sidewall having a first sidewall top flap and a first sidewall bottom flap, a second sidewall having a second sidewall top flap and a second sidewall bottom flap, a second sidewall bottom flap extension foldably connected to the second sidewall bottom flap, a third sidewall having a third sidewall top panel, a fourth sidewall having a fourth sidewall top flap and a fourth sidewall bottom flap, a fourth sidewall bottom flap extension foldably connected to the fourth sidewall bottom flap, an inner sidewall foldably connected to the fourth sidewall, an inner sidewall flap foldably connected to the inner sidewall, a top panel including an aperture for dispensing food product there through, a bottom panel foldably connected to the front sidewall, and a slide foldably connected to the front sidewall.

Various embodiments provide a shipping and display box. In example embodiments, a shipping and display box includes a bottom panel, the bottom panel comprising a distal end wall at a distal end of the bottom panel and a proximal end tab at a proximal end of the bottom panel. In embodiments, the shipping and display box further includes a first side wall adjacent to and at an approximate right angle to the bottom panel at a first crease line. The shipping and display box further includes a top panel adjacent to and at an approximate right angle to the first side wall at a second crease line, the top panel comprising a proximal end wall at a proximal end of the top panel and a distal end tab at a distal end of the top panel. In embodiments, the shipping and display box further includes a second side wall adjacent to and at an approximate right angle to the top panel at a third crease line. The bottom panel, first side wall, second side wall, top panel, and proximal end wall each comprise one or more perforations configured to enable removal of sections of each of the bottom panel, first side wall, second side wall, top panel, and proximal end wall for display of contents of the shipping and display box.

A box formed from a plastic corrugated material with soft score lines is provided. The soft score lines are formed to enable the top flaps of the box to lay substantially flat against the outer surface of the box when folded to an open position.

The invention relates to a method for retrieving a shut state and/or a location of a closable container as well as closable containers, wherein a transition between an open position and a closed position is achieved by a relative movement at least of a first container part with respect to a second container part, wherein the container has at least one RFID chip having a connected near field antenna and a far field antenna and the RFID chip having the connected near field antenna is arranged at the first or at the second container part and the far field antenna is arranged at the other one of the first and second container part, respectively, and the near field antenna, which is connected to the RFID chip, is arranged, as compared to the far field antenna, such that, in the closed position of the container, a noncontact electromagnetic coupling takes place between the near field antenna and the far field antenna. In the context of the method, due to the interaction of a sending unit and a receiving unit, a response signal can by generated by means of the RFID chip and can be transmitted, the range of said response signal depending on the shut position of the container.

A vessel has an inner flap and an outer flap that fold across a base of the vessel to form a cover. The inner flap includes a dam tab along the outer edge of the inner flap. When the inner flap is folded down, the free edge of this tab contacts the wall of the vessel and bends upward forming a “folded edge” dam. This folded edge dam can either be one segment or be made of two or more segments divided by one or more V-shaped cuts to allow each segment to fold down and fit together seamlessly. A restrictive channel is formed by the outer and inner flaps together with the “folded edge” dam, which is present in-between the outer and inner flaps.

A tamper resistant food container includes a top panel, a bottom panel, and an adhesive strip. The top panel includes a front section, a rear section, a front wall, opposing sidewalls, and a tear away section. The tear away section is positioned on the front wall of the top panel. The bottom panel includes a front wall, a rear wall, and opposing sidewalls. The rear wall of the bottom panel is hingedly connected to the rear section of the top panel. The top panel and the bottom panel of the tamper resistant food container define a space therebetween for storing food. The adhesive strip is positioned on an outer surface of the front wall of the bottom panel for securely sealing the top panel to the bottom panel of the tamper resistant food container. A user accesses the stored food by removing the tear away section.

A tamper resistant food container includes a top panel, a bottom panel, and an adhesive strip. The top panel includes a front section, a rear section, a front wall, opposing sidewalls, and a tear away section. The tear away section is positioned on the front wall of the top panel. The bottom panel includes a front wall, a rear wall, and opposing sidewalls. The rear wall of the bottom panel is hingedly connected to the rear section of the top panel. The top panel and the bottom panel of the tamper resistant food container define a space therebetween for storing food. The adhesive strip is positioned on an outer surface of the front wall of the bottom panel for securely sealing the top panel to the bottom panel of the tamper resistant food container. A user accesses the stored food by removing the tear away section.

Some embodiments include a package assembly comprising a case formed of a single sheet of packaging material. The single sheet includes three rows of panels. The three rows include first and second edge rows and a middle row disposed between the first and second edge rows. The panels are foldable at fold lines to form the case. A first side of the case includes a first end panel of the middle row extending fully between a top and a bottom and a front and rear of the case and an opposing end panel of the middle row extends over the first end panel. A second side of the case opposite the first side and a front and rear of the case include tear lines configured to separate the case into a cover portion and a tray portion. The first end panel is included with the cover portion.