A covered container manufacturing device for manufacturing a resin covered container that includes: a container main body; an outer cover portion that opens and closes the container main body; and a hinge portion that couples the container main body with the outer cover portion, and wherein the container main body, the outer cover portion and the hinge portion are integrally formed, the covered container manufacturing device including: an angle regulator that regulates a relative angle of the outer cover portion with respect to the container main body to a predetermined angle of less than 180 degrees, wherein the angle regulator comprises: a heater that comprises a heating portion that generates heat and heats the hinge portion; and a bender that bends the outer cover portion relative to the container main body at the heated hinge portion, wherein the heater heats inside of the hinge portion.

A shank proof container made of a flexible industrial plastic sheet sheet. The industrial plastic sheet sheet may be cut to form shapes that are welded by RF welding or other forming means to create a closed container having a bottom, side wall and an open top. The RF welding creates welded multi-layer seams that support the bottom spaced from the open top.

A reusable plastic container is provided. The container includes a plastic container body having opposing side panels and opposing end panels. The container body also includes top side panel flaps attached to a top portion of each side panel, and bottom side panel flaps attached to a bottom portion of each side panel. The container body has top end panel flaps attached to a top portion of each end panel, and bottom end panel flaps attached to a bottom portion of each end panel. The top and bottom side panel flaps are each defined with respect to the side panels by a fold line. The fold lines including at least one scored portion and at least one welded portion.

A blister packaging comprises a thermoformed web (30) with cavities (10) for a product formed therein, comprising at least two co-extruded layers: a main layer (34) comprising HDPE and up to 2% of a first additive, and a sealing layer (36) comprising HDPE and at most 50% of LLDPE, and a flat lid (20), comprising at least three co-extruded layers: an outer HDPE layer (22) containing up to 5% of a second additive, an intermediate HDPE layer (24) comprising a third additive suitable to decrease elongation at break, and an inner sealing layer (26), wherein the thermoformed web (30) and the flat lid (20) are heat-sealed together. The invention further relates to a packaged pharmaceutical or nutritional product comprising a comprising such a blister packaging, and a pharmaceutical or nutritional product (40) in solid form contained in the cavities. It further relates to a method for producing such a product.

A foldable blank is disclosed. The foldable blank includes a base, a first sidewall, a first flange, and a restraining feature. The first sidewall is connected to the base. The first flange is connected to the first sidewall. The restraining feature is located in at least one of the base and the first sidewall. Each of the base, the first sidewall and the first flange are constructed from a polymeric sheet. The restraining feature is a permanent imprint in the foldable blank. The foldable blank is generally planar with the exception of the restraining feature. The foldable blank may be erected to a folded tray. The folded tray may be connected with a lid to form a package. The package may be suitable for non-hermetic applications.

Medical packaging for the sterile storage of medical articles in a hermetically and sterile sealable packaging sleeve. The packing generally includes at least two parts, with a sealed, film-like outer packaging, which at least partially encloses the packaging sleeve in a form-fitting manner and provides a pressure that is reduced with respect to the atmosphere. At least one end face of the packaging sleeve may be designed to be flattened, wherein a length of the outer packaging is generally longer than a length of the packaging sleeve and projects beyond the end face region of the packaging sleeve. A sealing or welding seam may be arranged at least in the end face region of the packaging sleeve, wherein at least one of the end faces of the packaging sleeve, preferably both end faces, are designed so as to be flattened off. The end-sided transition from the packaging sleeve into the outer packaging is substantially wrinkle free.

The invention is directed to a balanced process for extrusion of a plastic corrugated sheet or blanks, and subsequent converting of the blanks into plastic boxes. The process includes conveying the blanks to a plurality of forming stations for incrementally forming features on the blank needed for forming a box. The present process is performed at a slower speed than typical paper corrugated forming.

Plastic corrugated reusable boxes are provided. Two opposite side panels 12 erected from a blank over fold lines 18 at bottom panel edges; said side panel 12 having flaps 20 attached on either side folded inward and interlocked with flaps 22 folded inward from the opposite side. Narrow flaps 32 attached to top edges of said side panels 12 folded inward and flat. The rest two opposite side panels 14 erected over fold lines at rest bottom panel edges; top flaps 30 attached to the rest two side panels 14 folded inward covering the top surface. Interlocked flaps 20 and 22 are standing underneath top flaps 30 and alongside two opposite side panels 14. Lock tabs 40 attached to top flaps 20 folded down and inserted into said lock slots embedded in narrow flaps 22 alongside side panels 12 top edges.

The invention relates to shrink packaging for packing a series of containers. The packaging is characterized in that at least one incision line is provided in a first zone, said incision line including a series of perforations forming at least one partially detachable section arranged to allow the extraction of at least one container in a direction extending substantially from the lower part of the container to the upper part thereof, said partially detachable packaging section being larger than the cross-section of the at least one container to be extracted. Moreover, the partially detachable section is located on the periphery of the first zone.

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 blankincluding providing air vents to allow trapped air to escape during the pre-sealing processto 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.