A collapsible play structure having a collapsed configuration and an opened configuration comprises: a left panel having a back surface, a front surface, a horizontal axis, and a vertical axis; a left fold out structure coupled to the left panel, the left fold out structure comprising one or more members rotatably coupled to the left panel to be rotatable about an axis parallel with the horizontal axis of the left panel; a right panel having a back surface, a front surface, a horizontal axis, and a vertical axis; a right fold out structure coupled to the right panel, the right fold out structure comprising one or more members rotatably coupled to the right panel to be rotatable about an axis parallel with the horizontal axis of the right panel; and a center panel having a back surface and a front surface, the center panel rotatably coupled to the left panel and the right panel in an orientation that aligns the vertical axes of the left panel and the right panel in a parallel alignment, wherein, in the opened configuration, the left fold out structure and right fold out structure are coupled together by at least one releasable joint.

The present disclosure provides a kit for a construction game allowing to construct a structure. The kit includes a plaster powder material, at least one plaster powder container, at least one construction mold, and a packaging. The plaster powder material is configured to be mixed with a liquid solution in order to create a substance in the form of a viscous liquid capable of being solidified later. The plaster powder container is configured to contain the plaster powder material. The construction mold is configured to receive at least a part of the substance in order to create at least one solid predefined construction shape. The solid predefined construction shape is configured so as to be later used to construct the structure. The packaging includes the plaster powder container and the construction mold.

A collapsible play structure having a collapsed configuration and an opened configuration comprises: a left panel having a back surface, a front surface, a horizontal axis, and a vertical axis; a left fold out structure coupled to the left panel, the left fold out structure comprising one or more members rotatably coupled to the left panel to be rotatable about an axis parallel with the horizontal axis of the left panel; a right panel having a back surface, a front surface, a horizontal axis, and a vertical axis; a right fold out structure coupled to the right panel, the right fold out structure comprising one or more members rotatably coupled to the right panel to be rotatable about an axis parallel with the horizontal axis of the right panel; and a center panel having a back surface and a front surface, the center panel rotatably coupled to the left panel and the right panel in an orientation that aligns the vertical axes of the left panel and the right panel in a parallel alignment, wherein, in the opened configuration, the left fold out structure and right fold out structure are coupled together by at least one releasable joint.

A grid for a snap-together electronic toy set is disclosed. The grid includes: a planar, non-conductive member; a plurality of spaced-apart, non-conductive snap-fittings; at least one first electrically conductive snap-fitting; and at least one second electrically conductive snap-fitting. The planar, non-conductive member includes first and second opposed surfaces. The plurality of spaced-apart, non-conductive snap-fittings are connected to the first opposed surface. The at least one first electrically conductive snap-fitting is connected to the first opposed surface in spaced-apart relation to the plurality of spaced-apart, non-conductive snap-fittings. The at least one second electrically conductive snap-fitting is connected to the second opposed surface. The at least one second electrically conductive snap-fitting is electrically conductively connected to the at least one first electrically conductive snap-fitting.

A 3D fort building kit is a device that can create a variety of structures and shapes. In other words, the device has improved materials and designs with better qualities, that enables kids to build complex 3D structures. To accomplish this, the device includes panels, connectors and utility features that help kids to construct and assemble a structure of their choice in many designs. Further, structures may be constructed in many creative designs by allowing the panels to be connected vertically, horizontally, and at any angle. Furthermore, the constructed structures can be disassembled and constructed again to build other designs safely by kids. Additionally, the device is simple, durable, and light weight enough for young kids to build stable and versatile structures of their choice.

A children's fort unit includes a first panel comprising a front and a first side permanently joined together and moveable relative to one another along a hinging crease and a second panel comprising a back and a second side permanently joined together and moveable relative to one another along a hinging crease. The fort unit also includes a roof section that includes a hinging crease that allows the roof to fold. The first panel is sized and configured to be releasably joined to the second panel and the roof section is sized and configured to be joined to both the first and second panels.

A building toy and a method of building with it. The toy is designed to be constructed of a rigid and generally non-deformable material such as, but not limited to, wood and particularly hardwood, and is constructed in the fashion of a log-style building toy. The toy utilizes interconnecting notches in its construction, but provides for a variety of specialized pieces which allow for interconnection of parts where there is one notch but not another, as well as the ability to build roofs, floors, and specialty structures such as fireplaces through the use of specialized components. Further, the use of more strongly connecting components allows for stronger structures to be built.

The invention relates to play equipment, in particular for inferior spaces and small children, comprising at least one portable play equipment, having a thin, stable core element whichviewed from the sideis arched and, in the direction of the arch, is flat and flexibly ductile at least in sections, and an at least one-piece protective sheath made from a material which is soft and flexible at least in sections, preferably from foam, which is fastened in contact at least to the arched outer surface, preferably to the arched outer surface and the arched inner surface of the core element and protrudes beyond the edges of the arched core element extending in the direction of the arch and beyond the two ends thereof, and forms a flexible protection buffer, which can be pressed in, against risk of injury, and/or an interior space protective buffer, the end sections of which each form at least one flexible clamping and/or protection lip of the play element in the direction of the arch.

A wall component for receiving associated alignment clips is illustrated and described. The wall component comprises a molding strip, an array of mounting studs, and a molding frame that is inserted between a pair of wall panels. More specifically, the mounting studs are affixed to an inner surface of the molding strip and inserted through the wall panel where they are secured to the molding frame. A gap is formed between the inner surface of the molding strip and an outer surface of the wall panel for receiving associated alignment clips. The alignment clips are releasably secured to the wall component by interlocking with the mounting studs in the clip receiving gap and/or wedging the gap. The alignment clips may be affixed along an abutment edge of the wall segment or to associated model pieces. Model pieces may also be laterally slidable with respect to their associated alignment clips.

An interlocking structure is provided. The interlocking structure includes a floor panel which has a floor tab, a floor groove, and a floor tenon. A side panel includes a first side tab, a second side tab, and a side groove, wherein the side groove is removably coupled to the floor groove. A top panel has a top tab, a top groove, and a top tenon, wherein the top tab is removably coupled to the side groove and the top groove is removably coupled to the first side tab. A back panel has a back tab, a back groove, a first back mortise and a second back mortise. The first back mortise is configured to receive the floor tenon and the second back mortise is configured to receive the top tenon. A rod is removably coupled to at least one of the floor tenon and the top tenon.