A tectonic origami device (100) is disclosed, which includes a flexible supporting substrate (102); and a plurality of substantially rigid planar members (104) arranged on the supporting substrate, the planar members configured in a non-overlapping cooperative arrangement to permit assembly of the device to form an enclosure. The device is configured to be transformable between a collapsed form where the supporting substrate and planar members are collectively in a planar arrangement and an assembled form where the supporting substrate and planar members are collectively assembled as the enclosure.

The toy structure kit includes an accessory defining an opening, a toy structure defining an opening, and a connector having a base member and a collar, the connector configured to couple the accessory to the toy structure, the base member including a first projection member and a second projection member, the first projection member configured to extend through the opening defined by the accessory and receive the collar, the second projection member configured to extend through the opening defined by the toy structure.

An interlinking assembly device for generating three-dimensional objects. The device includes a unit having a pair of wings and at least one loop. The wings have slots that can accept a wing from another unit. The at least one loop can also accept a wing from another device, allowing multiple rows to be linked and extend in three dimensions. A kit includes more than one unit and can include more than one embodiment of the unit.

An interlinking assembly device for generating three-dimensional objects. The device includes a unit having a pair of wings and at least one loop. The wings have slots that can accept a wing from another unit. The at least one loop can also accept a wing from another device, allowing multiple rows to be linked and extend in three dimensions. A kit includes more than one unit and can include more than one embodiment of the unit.

A toy paper airplane conversion kit has a nose-piece with a combination capacitor mounting portion and nose clip connected to a rear, electric motor driven propellor unit by a lead receiving, square section conductor conduit which keys into a complementary socket of the motor mount, maintaining the rear propellor unit tilted upward. The nose-piece has a combination capacitor mount and nose clip with two paper-clamping, cantilever spring arms extending rearwardly in spaced-apart, coplanar, side-by-side relation under the capacitor mounting portion and having converging portions adjacent rear free ends and, a stubby, paper spreading, crease stuffing fin from the nose-piece, rearward of free ends of the springs. The capacitor mouth receiving a charging plug of a battery pack unit.

A toy paper airplane conversion kit has a nose-piece with a combination capacitor mounting portion and nose clip connected to a rear, electric motor driven propellor unit by a lead receiving, square section conductor conduit which keys into a complementary socket of the motor mount, maintaining the rear propellor unit tilted upward. The nose-piece has a combination capacitor mount and nose clip with two paper-clamping, cantilever spring arms extending rearwardly in spaced-apart, coplanar, side-by-side relation under the capacitor mounting portion and having converging portions adjacent rear free ends and, a stubby, paper spreading, crease stuffing fin from the nose-piece, rearward of free ends of the springs. The capacitor mouth receiving a charging plug of a battery pack unit.

A display packaging for receiving and containing a spherical object includes a series of interconnected triangular panels with alternating orientations looped in a circular fashion. Base edges of the triangular panels form pentagonal edges to define two opposing pentagonal voids that expose a substantial portion of two sides of a contained spherical object to allow a consumer to visually inspect and/or feel the spherical object. The display packaging may be assembled from a blank that includes a first region, middle region, and second region. The middle region includes the series of interconnected triangular panels. The first region and second region each includes a series of interconnected and alternating base triangular portions and vertex triangular panels. The display packaging may be assembled from the blank by folding and overlaying first and second regions on the middle region to form a folded blank and looping the folded blank.

Disclosed is an origami sheet for making a regular hexahedron box, including: first to fourth main outer wall sections connected successively along a longitudinal central area to be foldable with regard to one another; and first to fourth wing sections connected to both longitudinal sides of the first to fourth main outer wall sections to be foldable, respectively. The first and second wing sections and the third and fourth wing sections are connected to be foldable with regard to each other, and the second and third wing sections abut each other with interposed incision lines.

In accordance with the present invention, a stand-alone pop up assembly and method for making the same is provided comprising a plurality of wall panels connected with an internal base. A roof structure is provided and a roof interface component for attaching the roof to the structure. The assembly is moveable between a first position being substantially flat into a one dimensional structure and a second position enfolded into a three dimensional structure by manipulating the outer structure and the internal base. The roof interface component may swivel into place during the movement to the three dimensional structure, thereby positioning the roof structure over the upper portions of the first and second panel walls or, alternatively, a sliding feature is provided with a tab from the roof inserted into a slot at the top of one of the panel walls, thereby sliding the roof into position.

In accordance with the present invention, a stand-alone pop up assembly and method for making the same is provided comprising a plurality of wall panels connected with an internal base. A roof structure is provided and a roof interface component for attaching the roof to the structure. The assembly is moveable between a first position being substantially flat into a one dimensional structure and a second position enfolded into a three dimensional structure by manipulating the outer structure and the internal base. The roof interface component may swivel into place during the movement to the three dimensional structure, thereby positioning the roof structure over the upper portions of the first and second panel walls or, alternatively, a sliding feature is provided with a tab from the roof inserted into a slot at the top of one of the panel walls, thereby sliding the roof into position.