A structural tent intended for use as a living space able to withstand extreme temperatures, while still being comfortable and used on a temporary basis; comprising a frame on which there are assembled first profiles and lower posts which are attached to a plurality of second profiles, brackets and upper posts, which form the structure on which a ridgepole is supported; and where a filler material is introduced into the gap created between the frame and the outside fabric; and where, finally, the ridgepole is integrally supported on the upper posts, where honeycomb plates are supported, an impermeable roof being arranged on the honeycomb plates and the gaps in the honeycomb plates being filled with a fine granular material.

A shelter or camper that provides improved portability and protection. The shelter or camper may include rigid walls to offer greater protection from weather, animals, and theft. The shelter or camper may be transitionable between different configurations for different purposes, including an open and expanded configuration for use as a shelter, camper, or sleeping quarters and a compact, closed case configuration for easy storage and transport. To facilitate this, the walls may be foldable, expandable, or collapsible. When the walls are folded or collapsed, roof and floor sections may be connected to each other and may enclose the folded, collapsed walls and internal components within the collapsed closed case.

Disclosed is a shelter having a base having base buses; a frame having curves and beams supporting the curves. Each end of the curves are attached to corresponding base bus; each curve is composed of curved elements, the curved element has means for connecting a curve to another curve with a beam. The shelter further has a cable, which cable is for tightening and supporting the frame. Additionally, there is a curved element, and a use of a shelter as a shelter for aircrafts or as a sports hall.

Disclosed is a shelter having a base having base buses; a frame having curves and beams supporting the curves. Each end of the curves are attached to corresponding base bus; each curve is composed of curved elements, the curved element has means for connecting a curve to another curve with a beam. The shelter further has a cable, which cable is for tightening and supporting the frame. Additionally, there is a curved element, and a use of a shelter as a shelter for aircrafts or as a sports hall.

A contiguous uni-body insulated hunting blind or outdoor shelter is disclosed herein. In an embodiment, the shelter is comprised of a main body element having a floor portion and a top portion. The main body element is formed as a single component having an outside layer, a middle layer, and an inner layer. The top portion provides an enclosure for all sides and a top covering. The top portion is also comprised of at least one opening portion and a door opening portion for installing a door for entering and exiting the structure. In embodiments, the top portion is comprised of a top wall, a front wall, a back wall, a left wall, and a right wall with at least one opening portion. In embodiments, the top portion is comprised of one opening portion on each wall except the top wall. In embodiments, the opening portions are configured with windows.

A valved cover is described for controlling air flow through perforated-strip-type soffit vents surrounding houses. The narrow, continuous vents are completely enclosed except for valved portholes in the cover, the flap valves being stiffly hinged to stay open (and quiet) in most weather to allow two-way ventilating air flow between outdoors and attic/roof space. The valved covers “harness” very strong winds: those on the the windward have their valves blown closed, blocking potentially destructive wind/rain entry into the attic/roof space, while those facing lee sides remain open so that the attic/roofspace is connected only to the wind-depressurized lee-side air and is therefore itself depressurized, helping hold the roof envelope together. The valved covers can be factory-mounted on the soffit panels and flat-folded for compact shipping and handling.

A valved cover is described for controlling air flow through perforated-strip-type soffit vents surrounding houses. The narrow, continuous vents are completely enclosed except for valved portholes in the cover, the flap valves being stiffly hinged to stay open (and quiet) in most weather to allow two-way ventilating air flow between outdoors and attic/roof space. The valved covers “harness” very strong winds: those on the the windward have their valves blown closed, blocking potentially destructive wind/rain entry into the attic/roof space, while those facing lee sides remain open so that the attic/roofspace is connected only to the wind-depressurized lee-side air and is therefore itself depressurized, helping hold the roof envelope together. The valved covers can be factory-mounted on the soffit panels and flat-folded for compact shipping and handling.

A tunnel connector for an in-ground storm shelter which allows inhabitants to enter the in-ground storm shelter from a trailer house without being exposed to external environmental factors. The tunnel connector includes a U-shaped enclosure wall, a staircase, a first lateral wall, and a second lateral wall. The first lateral wall and the second lateral wall are connected perpendicular to the staircase across each other to provide lateral protection. The U-shaped enclosure wall includes a first sidewall, a second sidewall, and an interconnecting sidewall. The interconnecting sidewall is terminally connected in between the first sidewall and the second sidewall. The first lateral wall is adjacently connected to the first sidewall, opposite the interconnecting sidewall. Similarly, the second lateral wall is adjacently connected to the second sidewall, opposite the interconnecting sidewall. The tunnel connector is installed in between a floorboard of the trailer house and the in-ground storm shelter.

A humanitarian camp shelter communication system for a humanitarian camp is disclosed herein. In embodiments, the humanitarian shelter communication system includes a plurality of shelter nodes, a plurality of individual identifiers, a plurality of tag readers, and a communication controller. Each individual identifier has an identifier tag for identifying each of the individual identifiers to the humanitarian camp shelter communication system. The plurality of tag readers detects the identifier tags. An individual identifier and a shelter node are associated with a displaced person staying at the humanitarian camp. The communication controller can send messages to the plurality of shelter nodes and has a locator operable to determine the location of the individual identifier based on which of the plurality of tag readers detected the identifier tag.

A method according to one embodiment includes securing a first plurality of conductive sheets to a surface, applying a conductive tape to a first plurality of joints between conductive sheets of the first plurality of conductive sheets, and securing a second plurality of conductive sheets to the first plurality of conductive sheets without fully penetrating the first plurality of conductive sheets. In such an embodiment, each of a second plurality of joints between conductive sheets of the second plurality of conductive sheets is offset relative to the first plurality of joints.