A net support system for supporting a net may include a support pole configured to hold up a net, one or more stakes configured to hold the net to a ground surface; and a shape disrupter configured to interface with the support pole and to hold up the net. The support pole and each of the one or more stakes are non-metallic, non-conductive, and radar transparent. Each of the one or more stakes may have a central rib. A storage case may be provided for storing the plurality of shape disrupters, the plurality of support poles, and the plurality of stakes.
A shape disrupter for a net support system may have a conical body and an elliptical shape in plan view. The shape disrupter may have low thermal signature and low weight. The shape disrupter may be stackable. The shape disrupter may have a protrusion on the shape disrupter for fixing each of the shape disrupters in place during stacking. The shape disrupter may have cutouts or openings to reduce the weight and thermal signature of the shape disrupter. The shape disrupter of the present disclosure may cooperate with support poles or nets to provide a support system for large nets or screens.
A net support system for supporting a net may include a support pole configured to hold up a net, one or more stakes configured to hold the net to a ground surface; and a shape disrupter configured to interface with the support pole and to hold up the net. The support pole and each of the one or more stakes are non-metallic, non-conductive, and radar transparent. Each of the one or more stakes may have a central rib. A storage case may be provided for storing the plurality of shape disrupters, the plurality of support poles, and the plurality of stakes.
A shape disrupter for a net support system may have a conical body and an elliptical shape in plan view. The shape disrupter may have low thermal signature and low weight. The shape disrupter may be stackable. The shape disrupter may have a protrusion on the shape disrupter for fixing each of the shape disrupters in place during stacking. The shape disrupter may have cutouts or openings to reduce the weight and thermal signature of the shape disrupter. The shape disrupter of the present disclosure may cooperate with support poles or nets to provide a support system for large nets or screens.
A multi-spectral reversible net system may include a center, two-sided reversible panel. The center panel may be printed on opposing sides with first and second screen designs. The center panel may be laid flat on a first side to expose the second screen design and thus have a net corresponding to the second screen design. The center panel may be lifted and laid flat on a second side to expose the first screen design, thus having a net corresponding to the first screen design. Construction and methods of using the net are also described.
B32B 3/10 - Produits stratifiés comprenant une couche ayant des discontinuités ou des rugosités externes ou internes, ou une couche de forme non planeProduits stratifiés comprenant une couche ayant des particularités au niveau de sa forme caractérisés par une couche discontinue, c.-à-d. soit continue et percée de trous, soit réellement constituée d'éléments individuels
B32B 5/26 - Produits stratifiés caractérisés par l'hétérogénéité ou la structure physique d'une des couches caractérisés par la présence de plusieurs couches qui comportent des fibres, filaments, grains ou poudre, ou qui sont sous forme de mousse ou essentiellement poreuses une des couches étant fibreuse ou filamenteuse un autre couche également étant fibreuse ou filamenteuse
E04H 9/00 - Bâtiments, groupes de bâtiments ou abris conçus pour résister à des situations extérieures anormales, p. ex. à des bombardements, à des séismes ou à des climats extrêmes, ou pour se protéger de ces situations
E04H 15/00 - Tentes ou abris provisoires, en général
A camouflage construction comprises a first base layer having a top side defining a first camouflage motif and an opposite bottom side defining a second camouflage motif. A second garnish layer, formed from a plurality of elongated strips each having a central longitudinal axis extending between opposite ends of each strip, and a plurality of slits formed transverse to each strip longitudinal axis so that a plurality of fingers are formed on each side of the longitudinal axis so that each finger has a first end that is attached to a continuous central portion of the strip and a second end that is free to move with respect to the first end and adjacent fingers, are bonded to the first base layer top side along the central longitudinal axes to form a three-dimensional motif on the first base layer top side.
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