Collapsible structures are disclosed. In one embodiment, the collapsible structure includes a plurality of hinges and a plurality of panels. The plurality of panels are swingably connected by the plurality of hinges so as to form at least one arch when the collapsible structure is in an erected state and so as to become at least one stack of the plurality of panels in a collapsed state. The panels allow for the collapsible structure to maintain its structural integrity when erected but to have a compact and transportable configuration when collapsed.

Collapsible structures are disclosed. In one embodiment, the collapsible structure includes a plurality of hinges and a plurality of panels. The plurality of panels are swingably connected by the plurality of hinges so as to form at least one arch when the collapsible structure is in an erected state and so as to become at least one stack of the plurality of panels in a collapsed state. The panels allow for the collapsible structure to maintain its structural integrity when erected but to have a compact and transportable configuration when collapsed.

An erectable canopy framework comprising a base frame and a roof frame. The roof frame is operative to support a canopy above the base frame and is removably mountable to the base frame. The base frame includes a plurality of upright support members, a plurality of cross members, each interconnecting adjacent upright support members, and a plurality of mounts disposed on the upright support members. Each mount includes a mount opening and each cross member includes a scissor assembly to permit movement of the base frame between expanded and a collapsed states. The mounts are operative to fasten the cross members to the upright support members. The roof frame includes a plurality of rafters each connectable to a corresponding mount opening. The framework comprises a plurality of rafter fittings each adapted for insertion into a corresponding mount opening and connectable to a corresponding rafter.

An erectable canopy framework comprising a base frame and a roof frame. The roof frame is operative to support a canopy above the base frame and is removably mountable to the base frame. The base frame includes a plurality of upright support members, a plurality of cross members, each interconnecting adjacent upright support members, and a plurality of mounts disposed on the upright support members. Each mount includes a mount opening and each cross member includes a scissor assembly to permit movement of the base frame between expanded and a collapsed states. The mounts are operative to fasten the cross members to the upright support members. The roof frame includes a plurality of rafters each connectable to a corresponding mount opening. The framework comprises a plurality of rafter fittings each adapted for insertion into a corresponding mount opening and connectable to a corresponding rafter.

A canopy assembly for a barrier defined by at least two sides, wherein the canopy assembly including a cover assembly; and a bracket assembly, coupled to the cover assembly, wherein the bracket assembly includes at least a first bracket for coupling the cover assembly to the first side of the barrier and at least a second bracket for coupling the cover assembly to the second side of the barrier, wherein each of the at least first and second brackets have a cavity dimensioned to receive a plurality of differently dimensioned barrier top rails or wall surfaces.

A canopy assembly for a barrier defined by at least two sides, wherein the canopy assembly including a cover assembly; and a bracket assembly, coupled to the cover assembly, wherein the bracket assembly includes at least a first bracket for coupling the cover assembly to the first side of the barrier and at least a second bracket for coupling the cover assembly to the second side of the barrier, wherein each of the at least first and second brackets have a cavity dimensioned to receive a plurality of differently dimensioned barrier top rails or wall surfaces.

An impact shield for earthquake protection is described herein. The impact shield may include a canopy constructed of a puncture-resistant material, the canopy defining a first internal volume accessible via a first opening, the canopy being structured to form a semispherical shape when in an inflated state, the semispherical shape defining a space dimensioned for sheltering at least one human body; a support joined to the canopy and constructed of the puncture-resistant material, the support defining a second internal volume accessible via the first opening and a second opening, the support located within the space, the support structured to form a column when in the inflated state; and a fitting joined to the support for closing the second opening to fix the first internal volume and the second internal volume after inflation of the support and the canopy.

An impact shield for earthquake protection is described herein. The impact shield may include a canopy constructed of a puncture-resistant material, the canopy defining a first internal volume accessible via a first opening, the canopy being structured to form a semispherical shape when in an inflated state, the semispherical shape defining a space dimensioned for sheltering at least one human body; a support joined to the canopy and constructed of the puncture-resistant material, the support defining a second internal volume accessible via the first opening and a second opening, the support located within the space, the support structured to form a column when in the inflated state; and a fitting joined to the support for closing the second opening to fix the first internal volume and the second internal volume after inflation of the support and the canopy.

A door assembly for a shelter, wherein the shelter comprises a frame assembly and a cover for covering the frame assembly, wherein the door assembly includes a door frame; a door coupled to the door frame, wherein the door is preferably of a flexible material that can be lifted to provide an opening into the shelter and can be lowered for enclosing the shelter, wherein the door includes a plurality of pockets; a plurality of elongated door members, each of which includes a first and a second end, wherein each of the plurality of elongated door members is positioned within a respective one of the pockets; a plurality of first couplers, each of which couples the first end of a respective elongated door member to a first side of the door frame; a plurality of second couplers, each of which couples the second end of a respective elongated door member to a second side of the door frame; and a door lifting/lowering assembly for lifting the door to provide the opening into the shelter and for lowering the door for enclosing the shelter. Also disclosed herein is a shelter comprising a frame assembly and a cover for covering the frame assembly; and a door assembly as disclosed above.

Tent couplers include a pivot interlocking member and a bridged interlocking member. The bridged interlocking member comprises a bridge that extends between a tether-receiving portion and a tent support-receiving portion that includes a tent support receiver configured to couple to a tent support. The pivot interlocking member includes a tent fabric receiver configured to couple to a tent fabric. The pivot interlocking member defines a bridge-receiving aperture and an entrance slot interconnected thereto. Tent couplers are selectively configured between a linking configuration and an interlocked configuration. In the linking configuration, the pivot interlocking member is positioned for insertion and removal of the bridge from the bridge-receiving aperture via the entrance slot. In the interlocked configuration, the bridge is positioned within the bridge-receiving aperture, and the pivot interlocking member is oriented within a range of interlocked orientations that restrict removal of the bridge from the bridge-receiving aperture.