A portable bivouac sack configured to be self-deploy when released from its compact storage configuration. The bivouac sack comprises an elongated bag shell made of waterproof material with an elongated ground piece and a top panel. The sack is closed on one end, open at an opposite end, and configured to receive a sleeping bag. The top panel is shorter than the ground piece to form a transverse opening into the bag shell and a longitudinally aligned pan. Disposed over the pan is a self-deploying frame that folds into a compact circular configuration for storage and automatically unfolds and self-deploys when released to form an expanded frame. Attached to the frame is a flexible outer cover that expands with the frame to form a dome over the pan. The frame cover extends downward towards the pan and a sliding connector selective attaches the frame cover to the pan to provide egress and ingress to the protected area under the dome. An optional outer cover is provided that fits over the dome.

A securing system for a covering device comprising a polymeric shell including a receptacle portion and an optional cover portion, the receptacle portion being formed of a base portion and one or more walls and at least one opening formed within the shell, wherein the opening is adapted to receive a material capable of flowing and optionally curing to form a filled receptacle portion, the filled receptacle portion forming a solid weight for use in securing a covering the covering device.

A securing system for a covering device comprising a polymeric shell including a receptacle portion and an optional cover portion, the receptacle portion being formed of a base portion and one or more walls and at least one opening formed within the shell, wherein the opening is adapted to receive a material capable of flowing and optionally curing to form a filled receptacle portion, the filled receptacle portion forming a solid weight for use in securing a covering the covering device.

A system for providing shade onto a surface is described herein. The system includes a canopy configured for engagement with, and aerial suspension by, a frame. The frame includes a plurality of sections configured for end-to-end alignment from a left end to a right end of the frame. Each section is configured to engage with any adjacent sections to form the frame. The ends of the frame are secured to the surface, thereby aerially suspending the canopy and providing shade to the surface.

A system for providing shade onto a surface is described herein. The system includes a canopy configured for engagement with, and aerial suspension by, a frame. The frame includes a plurality of sections configured for end-to-end alignment from a left end to a right end of the frame. Each section is configured to engage with any adjacent sections to form the frame. The ends of the frame are secured to the surface, thereby aerially suspending the canopy and providing shade to the surface.

A magnetic sealing closure, comprising: a. a first flexible strip, with a plurality of cavities adapted to incorporate a plurality of magnetic elements; b. a second flexible strip, with a plurality of cavities adapted to incorporate a plurality of magnetic elements; wherein said sealing closure comprises membranes connectable to said first strip, and a second membrane connectable to said second strip, such that said plurality of magnetic elements of said second strip are embedded within said plurality of cavities between said second strip and said second membrane; when said first and second strips and are brought together from the side of said first and second membranes, magnetic elements of said first and said second strips magnetically attract each other, such that a sealing is provided.

A system for providing shade onto a surface is described herein. The system includes a canopy configured for engagement with, and aerial suspension by, a frame. The frame includes a plurality of sections configured for end-to-end alignment from a left end to a right end of the frame. Each section is configured to engage with any adjacent sections to form the frame. The ends of the frame are secured to the surface, thereby aerially suspending the canopy and providing shade to the surface.

A system for providing shade onto a surface is described herein. The system includes a canopy configured for engagement with, and aerial suspension by, a frame. The frame includes a plurality of sections configured for end-to-end alignment from a left end to a right end of the frame. Each section is configured to engage with any adjacent sections to form the frame. The ends of the frame are secured to the surface, thereby aerially suspending the canopy and providing shade to the surface.

A system for a dynamically orienting adjustable shelter is provided. The system generally comprises a base, lever arm, counterweight, boom, canopy, canopy supports, and support cables connected to said canopy supports. The boom and lever arm connect to the base in a way such that the boom may be in an upright position when a counterweight is placed on the lever arm. A canopy assembly may be rotatable attached boom in a way that allows it to rotate about said boom, which allows the canopy assembly to reduce the cross-sectional area of the canopy exposed to the wind. A cable may be attached to the front end of the canopy supports, which may prevent the back end of the canopy from tipping too far down when there is no wind that the system may use to stabilize the canopy by naturally reducing the cross-sectional area exposed thereto.

A system for a dynamically orienting adjustable shelter is provided. The system generally comprises a base, lever arm, counterweight, boom, canopy, canopy supports, and support cables connected to said canopy supports. The boom and lever arm connect to the base in a way such that the boom may be in an upright position when a counterweight is placed on the lever arm. A canopy assembly may be rotatable attached boom in a way that allows it to rotate about said boom, which allows the canopy assembly to reduce the cross-sectional area of the canopy exposed to the wind. A cable may be attached to the front end of the canopy supports, which may prevent the back end of the canopy from tipping too far down when there is no wind that the system may use to stabilize the canopy by naturally reducing the cross-sectional area exposed thereto.