The present invention disclosed a fold-flat carrying box that's easy to store and transport. When it comes time to use a carrying box, it can easily be folded up, along with the pre-made fold lines, into a box-shape container and ready for customers' need. The materials for the carrying box can be made from paper of suitable stock, or plastic or other flexible materials, greatly increasing the ease of use and lowering the cost of storage and transportation.

A product package includes a receiving space (1a), a covering film (7), an inner lining (6) and a body part (2) created out of a single blank. The body part (2) includes walls (2a, 2b, 2c, 8), a bottom (3) and a rim portion (4) as well as a plurality of slots (5) for shaping the receiving space (1a). The rim portion (4) of the body part (2) is a continuous, seamless and planar portion formed out of the same said blank and interconnecting the walls (2a, 2b, 2c, 8) of the body part (2).

A product package includes a receiving space (1a), a covering film (7), an inner lining (6) and a body part (2) created out of a single blank. The body part (2) includes walls (2a, 2b, 2c, 8), a bottom (3) and a rim portion (4) as well as a plurality of slots (5) for shaping the receiving space (1a). The rim portion (4) of the body part (2) is a continuous, seamless and planar portion formed out of the same said blank and interconnecting the walls (2a, 2b, 2c, 8) of the body part (2).

The invention relates to a packaging container (1) having a top side (2), a bottom side (5) extending parallel to the top side, and at least one side wall (6) extending between the top side and the bottom side. The top side has at least one protrusion, and the opposite side extending parallel has at least one recess (4), into which a protrusion of an identically shaped packaging container can be inserted. The problem addressed by the invention is that of producing such a packaging container in an economical and environmentally friendly manner. This problem is solved in that holes (24) are punched in the top side (2) and in the bottom side (5) and in that the protrusions (3) and the recesses (4) are attached in inserts (22, 23), which are inserted into the packaging container (1).

Provided is a folding packaging cooler box convertible from a box mode to an unfolding mode or vice versa, comprising: a box portion having a bottom portion, sidewall portions and joint portions configured to connect with one another and to form a single plane in the unfolding mode; and a cooling reinforcing portion configured to be inserted to the inside of the box and to form a hexahedron shape together with said box portion when said box portion is converted into the box mode, wherein said cooling reinforcing portion comprises a reinforcing bottom portion configured to form a lower surface and to face the bottom portion of the said box portion upon conversion into the box mode; reinforcing sidewall portions configured to connect with the said reinforcing bottom portion and to face the sidewall portions of said box portion; and reinforcing joint portions configured to join said reinforcing sidewall portions, to be folded to face itself and to be in close contact with the reinforcing sidewall portions, upon conversion into the box mode, and wherein said reinforcing bottom portion, said reinforcing sidewall portions and reinforcing joint portions form a single plane in the unfolding mode.

The invention provides nucleic acid structures of controlled size and shape, comprised of a plurality of oligonucleotides, and methods for their synthesis. The structures are formed, at least in part, by the self-assembly of single stranded oligonucleotides. The location of each oligonucleotide in the resultant structure is known. Accordingly, the structures may be modified with specificity.

A triangular package includes three sides and two end tab each covering a portion of an end of the triangular package. A method of forming a triangular package includes bending side portions of stock material to form the sides of the triangular packaging and shrink wrapping the triangular package causing tabs to cover portions of the triangular package ends.

The present invention disclosed a serving or display tray that comes in a minimally stored size when in its collapsed state, which allows huge amount of such tray to be transported and stored, at a relatively low cost. When it is ready for use, it can easily unfold into its pop-up state where the two top distal portions of the top layer are overlappingly connected to the underside of the corresponding fold-up walls of the bottom layer, providing good side support to the fold-up walls when food items, or other decorative subjects, are placed in the tray.

The present invention disclosed a serving or display tray that comes in a minimally stored size when in its collapsed state, which allows huge amount of such tray to be transported and stored, at a relatively low cost. When it is ready for use, it can easily unfold into its pop-up state where the two top distal portions of the top layer are overlappingly connected to the underside of the corresponding fold-up walls of the bottom layer, providing good side support to the fold-up walls when food items, or other decorative subjects, are placed in the tray.

The technology disclosed herein includes a packaging apparatus comprising an outer sleeve, an inner sleeve, and at least one locking mechanism configured to lock the inner sleeve inside the outer sleeve. In some implementations, the locking mechanism is an interior sliding mechanism, which locks the inner sleeve in its entirety in the outer sleeve. In some implementations, the locking mechanism is an interior sliding mechanism, which permits the inner sleeve to move partially out of the outer sleeve. In some implementations, the locking mechanism includes a spring, a tab, a flap, a key, a magnet lock, or other locking component. In some implementations, the inner sleeve includes a pull tab for removal of the inner sleeve from inside the outer sleeve.