A portable structure including a solar shade is disclosed. The portable structure includes a frame comprising at least two beams, a main panel extending between the at least two beams, and a solar shade. The solar shade includes at least one solar shade panel spaced above the main panel by at least one inflatable beam to create a space between the solar shade panel and the main panel. The space creates an insulative layer to help regulate an interior temperature of the portable structure.

A portable structure including a solar shade is disclosed. The portable structure includes a frame comprising at least two beams, a main panel extending between the at least two beams, and a solar shade. The solar shade includes at least one solar shade panel spaced above the main panel by at least one inflatable beam to create a space between the solar shade panel and the main panel. The space creates an insulative layer to help regulate an interior temperature of the portable structure.

The present disclosure discloses an air-borne multilayer film building structure which includes an independent film, a heat-insulation structure covering the independent film, and an airbag cover covering or an outer film cover covering the heat-insulation structure. The heat-insulation structure is installed on the outer wall of the independent film and includes at least two heat-insulation layers sequentially from inside to outside. Each heat-insulation layer is formed by paving a plurality of heat-insulation panels, the heat-insulation panels in every two adjacent heat-insulation layers being installed in a staggered manner. The outer heat-insulation layer covers a seam of the inner heat-insulation layer thereof. The air-borne multilayer film building structure has the advantages of good heat-insulation property, good airtightness, convenience in construction and the like.

Air supported structures forming an enclosure via internal pressurized air, and methods of making same, are disclosed. The structures include an outer membrane defining an outer surface of the structure. The structures include an inner liner blanket coupled to the outer membrane via a plurality of spaced baffles extending from the outer membrane into the enclosure, the inner liner blanket and the inner surface of the outer membrane forming a heating pocket therebetween within the enclosure extending along a first portion of the outer membrane. The structures also include at least one input channel in communication with the heating pocket, and at least one heated air system configured to selectively direct a flow of heated air through the at least one input channel and into the heating pocket to heat the first portion of the outer membrane to remove and/or prevent frozen precipitation accumulation on the outer surface thereof.

A portable structure including a solar shade is disclosed. The portable structure includes a frame comprising at least two beams, a main panel extending between the at least two beams, and a solar shade. The solar shade includes at least one solar shade panel spaced above the main panel by at least one inflatable beam to create a space between the solar shade panel and the main panel. The space creates an insulative layer to help regulate an interior temperature of the portable structure.

A structure is provided having a floor, and a canopy made from a flexible, substantially air-impermeable material and having a tubular rib. The canopy has an air inlet port by which the interior of the tubular rib can be connected to a source of compressed air, and is movable by the supply of compressed air from a collapsed state in which the tubular rib is deflated to an inflated state in which the tubular rib is inflated and supports the canopy in such a way that the canopy encloses an interior space above the floor and forms a roof and side walls of the structure. The floor has three substantially rigid floor panels which may be arranged together to form a substantially planar floor, or connected together to form the base and sides of a container in which the canopy can be stored when in the collapsed state.

The present disclosure discloses an air-borne multilayer film building structure which includes an independent film, a heat-insulation structure covering the independent film, and an airbag cover covering or an outer film cover covering the heat-insulation structure. The heat-insulation structure is installed on the outer wall of the independent film and includes at least two heat-insulation layers sequentially from inside to outside. Each heat-insulation layer is formed by paving a plurality of heat-insulation panels, the heat-insulation panels in every two adjacent heat-insulation layers being installed in a staggered manner. The outer heat-insulation layer covers a seam of the inner heat-insulation layer thereof. The air-borne multilayer film building structure has the advantages of good heat-insulation property, good airtightness, convenience in construction and the like.

An inflatable structure that can be easily transported, inflated, assembled, disassembled and stored with minimal if any tools and in a fraction of the time associated with prior art structures. The inflatable structure is comprised of a plurality of interchangeable structural members removably attached to one another, and that afford the user virtually endless design options and superior weatherproofing and insulating qualities. The structural member further comprises a plurality of filaments positioned in an airtight void, wherein said plurality of filaments are in tension when the structural member is inflated.

A portable structure including a solar shade is disclosed. The portable structure includes a frame comprising at least two beams, a main panel extending between the at least two beams, and a solar shade. The solar shade includes at least one solar shade panel spaced above the main panel by at least one inflatable beam to create a space between the solar shade panel and the main panel. The space creates an insulative layer to help regulate an interior temperature of the portable structure.

A lightweight heat reflective shield useful for hikers and campers to reflect heat from a campfire back toward themselves. The heat reflective shield includes a base panel and a concave body portion attached to and extending upward from the base panel and supported by at least two inflatable ribs. The concave body portion includes an open front face along a front edge of the base panel, an inner side, and an outer side, wherein at least a portion of the inner side includes a heat reflective material. When the inflatable ribs are filled with air, the heat reflective shield may accommodate a standing or seated person, and when positioned adjacent a heat source, the heat reflective material of the inner side reflects heat from the heat source back toward the heat source.